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THE INTERRELATIONSHIPS OF FISHES OF THE ORDER STOMIIFORMES
BY
Shannon Colleen DeVaney
Submitted to the graduate degree program in Ecology and Evolutionary Biology and the Graduate Faculty of the University of Kansas
in partial fulfillment of the requirements for the degree of Doctor of Philosophy.
______________________________ Edward O. Wiley, Chairperson Committee Members ______________________________ Rafe Brown ______________________________ Maria Orive ______________________________ C. Richard Robins ______________________________ Bruce Lieberman Date defended: ____________________ 10 December 2008
i
The Dissertation Committee for Shannon Colleen DeVaney certifies that this is the approved version of the following dissertation:
THE INTERRELATIONSHIPS OF FISHES OF THE ORDER STOMIIFORMES
Committee: ______________________________ Edward O. Wiley, Chairperson ______________________________ Rafe Brown ______________________________ Maria Orive ______________________________ C. Richard Robins ______________________________ Bruce Lieberman (Outside Member) Date approved: ____________________ 10 December 2008
ii
Acknowledgments
I am grateful to the following museums and individuals who
provided tissue samples used in my dissertation research: Andy Bentley,
the University of Kansas; Dianne Bray, Museum Victoria; H.J. Walker
and Cynthia Klepadlo, Scripps Institute of Oceanography; Mutsumi
Nishida, Ocean Research Institute, University of Tokyo; Masaki Miya,
Chiba Museum of Natural History; Reinhold Hanel, Leibniz Institut für
Meeresbiologie; Denis O'Meally, Australian Museum; Centro
Oceanográfico de Canarias; and Ted Pietsch and Kat Pearson
Maslenikov, University of Washington.
Funding for my dissertation research was provided by the Raney
Fund of the American Society of Ichthyologists and Herpetologists, the
Lerner-Grey Fund of the American Museum of Natural History, the
EAPSI Program of the National Science Foundation, the Department of
Ecology and Evolutionary Biology at KU, and by the Panorama Society
Small Grant Program at the KU Natural History Museum.
I would not have been able to collect many of the tissue samples I
used in my dissertation without the support of Mike Vecchione, who
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invited me to sea on cruises for which he was Chief Scientist. I am also
deeply indebted to Tracey Sutton, John Galbraith, Jon Moore, Karsten
Hartel, Andrew Williston, Chris Kenaley, Chip Cotton, Liz Shea, and
many other cruise participants for their contributions to the success of my
at-sea collections.
My dissertation committee provided valuable guidance, advice,
and support during the research phase of my graduate career, and helpful
comments and suggestions for improvement of the written dissertation. I
thank C. Richard Robins, Rafe Brown, Maria Orive, Bruce Lieberman,
and especially my committee chair Edward O. Wiley for the support that
made this dissertation possible.
Individuals from the Ortí lab at the University of Nebraska at
Lincoln were invaluable in providing advice on the use of nuclear
markers in fish phylogenetics. I especially wish to thank Guillermo Ortí
and Chenhong Li. I must also thank many researchers in Japan for their
generous support during my research stay in that country and for the
many things I learned from them in the lab. My excellent hosts, Mutsumi
Nishida (Ocean Research Institute, University of Tokyo) and Masaki
Miya (Chiba Museum), deserve the most thanks. I also thank Ryouka
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Kawahara, Sebastién Lavoué, Jun Inoue, Yasuyuki Hashiguchi, Yusuke
Yamanoue, and the other members of the Nishida lab.
At the University of Kansas, Nancy Holcroft Benson introduced
me to the molecular lab and was a stellar role model for excellence as a
researcher. I am also grateful to other KU graduate students past and
present, especially: Jennifer Pramuk, Anna Clarke Carlson, Katrina
Gobetz, Kristina McNyset, Kevin Tang, K.J. Pittman Irwin, Pingfu Chen,
Juan Guayasamin, Arpad Nyari, Monica Papes, Richard Williams,
Charles Linkem, Jamie Oaks, Cameron Siler, Francine Abe, Matthew
Davis, Kathryn Mickle, Sarah Spears, and Jeffrey Cole.
I am grateful to Michael Grose for all of his hard work in the KU
DNA Sequencing Core Facility. I also thank the many other staff and
faculty who helped during my time at KU, including Jordan Yochim,
Lori Schlenker, Jaime Keeler, Dorothy Johanning, Craig Martin, Chris
Haufler, Mark Mort, Mark Holder, Deborah Smith, Kirsten Jensen, Linda
Trueb, A. Townsend Peterson, Hans-Peter Schultze, Gloria Arratia,
Geffrey Lutrell, and Stephen Hudman.
My graduate studies would never have even begun, much less been
completed, without the contributions of two individuals at my
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undergraduate alma mater, the University of Washington. Karen Petersen
encouraged me to pursue biological research, gave me my first teaching
job, and influenced my decision to apply to graduate school. Theodore
Pietsch accepted me as an unfunded undergraduate researcher and
inspired me to love ichthyology, especially the deep ocean fishes of
which he is an expert.
Finally and above all, I thank my family. My parents, Michael and
Lois DeVaney, have been endlessly supportive of this doctoral endeavor
even when its purpose was not always clear to them. My brothers,
Jonathan and Joshua DeVaney, and all of my extended family, have not
only been supportive but have kept me grounded through all the long
years of education that have brought me here. Words can never fully
express my gratitude.
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Table Of Contents
Acknowledgments …………………………………………………………………………………………………… ii
Chapter One: Introduction …………………………………………………………………………… 1
Chapter Two: Interrelationships of Stomiiformes ………………… 8
Chapter Two Tables …………………………………………………………………………………………… 26
Chapter Two Figures ………………………………………………………………………………………… 38
Chapter Three: Intrarelationships of Stomiiformes ………… 41
Chapter Three Tables ……………………………………………………………………………………… 58
Chapter Three Figures …………………………………………………………………………………… 70
Literature Cited ………………………………………………………………………………………………… 73
Appendix 1: Sequence Data for Chapter Two ……………………………… 80
Appendix 2: Sequence Data for Chapter Three ……………………… 160
1
Chapter One
Introduction
Introduction to Stomiiformes
The order Stomiiformes is composed of 417 species in 53 genera (Eschmeyer,
1998; Nelson, 2006), including the lightfishes, dragonfishes, viperfishes,
snaggletooths, loosejaws, bristlemouths, and hatchetfishes. All members of the order
are marine, and most are meso- or bathypelagic. Stomiiforms are found in all of the
world's oceans. Most species are either black or silvery, and all species except one are
bioluminescent. The deep-sea species usually have a reduced swim bladder, a lighter
skeleton, and a high lipid content in their bodies (Herring, 2002). Stomiiforms are
generally small fishes, with most species less than 10 cm long, though adults range in
size from 1.5 cm to about 50 cm (Fink and Weitzman, 1982). Two six-foot-long
stomiids were reportedly viewed from the window of the first manned deep-sea
submersible, the bathysphere (Beebe and Crane, 1939), but no specimen was
collected and it seems likely that the sighting was a case of mistaken identity or
optical illusion.
Although some stomiiform species are rarely collected (e.g., Sonoda spp.,
Rhadinesthes decimus, Araiophos eastropas), other members of the order are clearly
among the ocean's most numerous inhabitants. Indeed, the bristlemouth genus
Cyclothone is often touted as being probably the most abundant vertebrate genus in
the world in terms of numbers of individuals (Herring, 2002; Nelson, 2006).
2
Stomiiforms make up an important part of the diet of large marine vertebrates such as
tunas and dolphins (Young et al., 1997; Gannon et al., 1998).
Fossil evidence of stomiiform fishes is limited. Most of the known fossil
stomiiforms are from the Miocene (Grenfell, 1984; Brzobohaty and Nolf, 2002;
Carnevale, 2008), or the Eocene (Patterson, 1993; Prokofiev and Bannikov, 2002).
Indirect lines of evidence indicate that the stomiiform lineage arose sometime in the
Mesozoic (Forey and Patterson, 2006). Gregorová (1989) describes stomiiform fossils
from the Tertiary, including specimens belonging to the extant genus Vinciguerria.
The Cretaceous genus Idrissa has been considered a possible stomiiform, but its
placement is problematic (Arambourg, 1952; Prokofiev, 2005) and Weitzman (1967)
concluded that it is not a stomiiform.
Monophyly of Stomiiformes
Even prior to the introduction of cladistic principles to ichthyology, many
early workers recognized an affinity among the fishes now recognized as members of
Stomiiformes, placing them together or sequentially in classifications (Gill, 1872;
Günther, 1880; Brauer, 1906; Regan, 1911). Stomiiform fishes were usually classified
with clupeoids (Regan, 1923; Marshall, 1960), salmonoids (Beebe and Crane, 1939;
Greenwood et al., 1966), or both (Gregory and Conrad, 1936; Gosline, 1960), and
early diagnoses of the stomiatoid group focus on characters that distinguish them
from their putative relatives, including the presence of photophores and a mouth that
continues posteroventrally past the eye. Rosen (1973) was the first to recognize the
3
group at the ordinal level, and Fink and Weitzman (1982) provide a list of
synapomorphies for the order that have remained accepted (Harold and Weitzman,
1996; Nelson, 2006).
Stomiiform Synapomorphies
1. Stomiiform photophores (light organs) have a structure that is apparently
unique among teleosts. The walls of the photophores are lined by flat cells filled with
guanine platelets and covered by a pigmented layer; they serve as a reflector. The
interior of the photophore is filled with two different types of cells: the photocytes,
light-producing cells packed with endoplasmic reticulum; and a second type of cell
that has been described as "glandular" and may function as a filter (Bassot, 1966).
Stomiiform photophores are not bacterial; the fish produces its own luciferin (Herring
and Morin, 1978). Bassot (1966) identified three main types of photophores within
the order. In type Alpha photophores, the photocytes are arranged in rows
perpendicular to the long axis of the photophore. In type Beta photophores,
photocytes are arranged around a central lumen that sometimes has an opening to the
outside. In type Gamma photophores, the photocytes are arranged radially around the
center of the organ. Both Alpha and Gamma types lack a lumen. These three
photophore types have been considered in the study of stomiiform intrarelationships.
Non-bacterial photophores are found in numerous species in at least six other teleost
orders, but none of these photophores have a structure that is similar to that of any of
the types of stomiiform photophores.
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2. Stomiiforms have a unique mode of tooth attachment not found in any other
teleost. The anterior border of the tooth is fused to the attachment bone or tightly
bound to it by collagen, and the posterior border of the tooth is farther from the
attachment bone and only bound to it loosely, if at all. The tooth is hinged, with the
anterior border of the tooth serving as the axis of rotation (Fink, 1981). This type of
tooth attachment is found in most adult stomiiforms on either jaw or branchial teeth
(Fink and Weitzman, 1982) and is classified as Type 3 attachment by Fink (1981).
Fink characterized this as one of four tooth attachment types found in
actinopterygians. The other three types include Type 1 attachment, in which the tooth
is fully fused to the attachment bone; Type 2 attachment, in which there is an area of
unmineralized collagen at the tooth base and the tooth may be slightly depressible;
and Type 4 attachment, in which the posterior edge of the tooth has a large area of
collagen and the anterior edge lacks either collagen or dentine, and the tooth is hinged
with a posterior axis of rotation (Fink, 1981). In addition to Type 3 attachment, Type
1 and Type 4 are found in stomiiforms (Fink, 1981; Fink and Weitzman, 1982).
3. Stomiiforms have a medial division of the adductor mandibulae muscle
which is usually further divided into a ventral section inserting on the primordial
ligament and a dorsal section inserting onto the maxilla (Rosen, 1973). In some
stomiiform taxa, either the dorsal or ventral section is emphasized and the other is
reduced or lost; in a few groups, including Gonostoma and Margrethia, there are
additional sections (Fink and Weitzman, 1982). Rosen (1973) suggested that the
insertion of a division of the adductor mandibulae — whether the medial division or
5
the dorsolateral division — on the maxilla is a neoteleostean character. Fink and
Weitzman (1982) argued that the medial division and dorsolateral division are not
homologous, on the grounds that their relative positions indicate distinct
developmental origins. A dorsolateral division of the adductor mandibulae seems to
be a synapomorphy for the Eurypterygii, whereas a medial division is found not only
in stomiiforms but also in myctophids (but not the myctophid sister group,
Neoscopelidae), and in some acanthomorphs (Fink and Weitzman, 1982;
Winterbottom, 1974). This condition probably evolved independently in each lineage.
4. Stomiiforms have a premaxillary-rostrodermethmoid ligament that connects
the dorsolateral face of the ethmoid to the contralateral premaxilla (or to both the
contralateral and ipsilateral premaxillae). Most other teleosts do not have such a
ligament; however, in Galaxias there are broad ligamentous sheaths connecting the
dorsolateral surface of the ethmoid to the contralateral and ipsilateral premaxillae
(Fink and Weitzman, 1982).
5. In stomiiforms, the second epibranchial has one broad proximal termination
that articulates with both the second and the third pharyngobranchials. In other lower
teleosts, the termination of the second epibranchial is forked, with separate processes
articulating with the second and third pharyngobranchials (Rosen, 1973; Fink and
Weitzman, 1982).
6. In stomiiforms the posterior branchiostegal ray is significantly and abruptly
larger than those anterior to it (in a few taxa, it is the posterior two or three rays, not
just one, that are larger; the abruptness of the transition is the same). In most other
6
teleosts, there is a gradual increase in size of branchiostegal rays from anterior to
posterior (McAllister, 1968; Fink and Weitzman, 1982).
7. Most stomiiforms have branchiostegals articulating with the ventral
hypohyals. Exceptions are some of the sternoptychids and the malacosteines, in
which branchiostegal rays are found only on the anterior and posterior ceratohyals.
No other teleost has been found to have branchiostegals on the ventral hypohyals
(McAllister, 1968; Fink and Weitzman, 1982).
8. In stomiiform fishes the rete mirabile, the network of blood vessels that
move gases in and out of the swim bladder, is located at the posterior end of the swim
bladder. In almost all other teleosts that have a rete mirabile, it is located near the
middle or toward the anterior end of the swim bladder. Some beryciform and
stephanoberyciform fishes also have the rete at the posterior end of the swim bladder,
but in these taxa the structure of the rete is different from that of stomiiforms
(Marshall, 1960).
Molecular Systematics of Stomiiformes
Stomiiformes as a group is very morphologically divergent from other fishes.
This has been useful for establishing the monophyly of the order, but makes it more
difficult to determine the relationships of Stomiiformes with other fish groups. Even
within the order, there is a high degree of morphological diversity but also extensive
morphological homoplasy (Fink, 1984b; Harold and Weitzman, 1996). The
difficulties presented by stomiiform morphology in phylogenetics suggest that
7
molecular data may be particularly promising for resolving the relationships of this
group. However, few previous studies have used molecular data to address
stomiiform relationships. The only applications of molecular data to relationships
within the order have been limited to the genera Cyclothone, Gonostoma, and
Sigmops (Miya and Nishida, 1996; Miya and Nishida, 1997). Larger, deep-level fish
phylogenies based on molecular data have included no more than five representative
stomiiforms (Ishiguro et al., 2003; Miya et al., 2003; López et al., 2004). The object
of my dissertation is the use of DNA sequence data to address both the inter- and
intrarelationships of Stomiiformes.
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Chapter Two
Interrelationships of Stomiiformes and Neoteleost Monophyly
Introduction
Interpretations of the relationships of the stomiiforms to other fishes have
varied. Some early workers suggested that stomiiforms were related to the clupeoids
on the basis of similarities in the caudal skeleton and the presence of two
supramaxillaries in some of the taxa (Regan, 1923; Marshall, 1960). Others linked
stomiiforms to the salmonoids because of the presence of a dorsal adipose fin in many
taxa as well as similarity in shape of several skull bones, including the basisphenoid
and pterotic (Beebe and Crane, 1939; Greenwood et al., 1966). The stomiiforms,
salmonoids, and clupeoids were all united by many authors in the order Isospondyli
(Gregory and Conrad, 1936; Beebe and Crane, 1939; Gosline, 1960), a group that
also included elopids, albulids, osteoglossomorphs, and argentinoids. A competing
hypothesis was that stomiiforms were closely related to the Iniomi, a grouping
composed of fishes now considered members of Myctophiformes and Aulopiformes
(Regan, 1911; Garstang, 1931). Stomiiform fishes were linked to Iniomi on the basis
of characters including presence of photophores, a wide gape, and a reduced or absent
swim bladder, all adaptations to life in the deep ocean. Affiliations were also
suggested between the stomiiforms and the alepocephaloids (Berg, 1940) or the fossil
enchodontids (Regan, 1911; Gregory and Conrad, 1936).
9
Weitzman (1967) argued extensively that stomiiforms are most closely related
to the osmerids and galaxiids. Of the many (mostly osteological) similarities he noted
between the taxa, he considered characters associated with the ethmoid region of the
skull the most important. In these fishes the ethmoid itself is largely unossified but
surrounded by plates of perichondral bone, whereas in most other actinopterygians,
the ethmoid is mostly ossified (Gregory, 1933; Weitzman, 1967). Weitzman
considered the stomiiform genera Vinciguerria and Polymetme among the most basal
members of the group, stating "if no other stomiatoids existed, Vinciguerria could
easily be considered a somewhat neotenic, sea-going osmerid with photophores"
(Weitzman, 1967).
Rosen (1973) erected the clade Neoteleostei to encompass the approximately
17,000 species of higher teleosts, including stomiiforms, aulopiforms,
myctophiforms, lampriforms, polymixiiforms, percopsiforms, gadiforms, and
acanthopterygians. He placed Stomiiformes sister to the clade he named Eurypterygii,
composed of all other neoteleosts. Rosen recognized three characters as diagnostic of
Neoteleostei. The first is the presence of a large muscle originating on the seventh to
ninth vertebrae and inserting on the fourth infrapharygobranchial; Rosen called this
muscle the retractor arcuum branchialum, but it is now known as the retractor dorsalis
(Rosen, 1973; Fink and Weitzman, 1982). The second character recognized by Rosen
is the presence of dorsal projections of bone on the premaxilla: the ascending and
articular premaxillary processes. The third character is the presence of a medial
division of the adductor mandibulae muscle (Rosen, 1973).
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Fink and Weitzman (1982) agreed with Rosen that stomiiforms are neoteleosts
and sister to Eurypterygii, but they reinterpreted the diagnosis of Neoteleostei. They
interpreted the adductor mandibulae condition in stomiiforms as uniquely derived in
the order and list it among stomiiform synapomorphies. Similarly, they argued that
the upper jaw characters listed by Rosen (1973) are not neoteleost synapomorphies.
They agreed that the retractor dorsalis muscle is a neoteleost synapomorphy, although
a similar muscle is found in gars, Amia, cyprinids, and Lepidogalaxias (Fink and
Weitzman, 1982; Fink, 1984a). Three new synapomorphies were listed by Fink and
Weitzman (1982) for Neoteleostei. The first was the presence of a single medial
rostral cartilage between the premaxillae and the ethmoid region. They found the
rostral cartilage present in most myctophiforms, aulopiforms, and stomiiforms. A
similar structure, composed of two paired cartilages rather than one, is found in
salmonids (Fink and Weitzman, 1982). The second new neoteleost synapomorphy
was Type 4 tooth attachment, in which the teeth are hinged with the axis of rotation at
the posterior tooth border (Fink, 1981). Although Type 3 tooth attachment is found in
many stomiiforms and is a synapomorphy for the order, Type 4 attachment is found
in some juvenile and small adult stomiiforms and a variety of eurypterygians. Fink
(1981) also found Type 4 attachment in Esox. The final neoteleost character listed by
Fink and Weitzman (1982) was that both the exoccipital and basioccipital, rather than
just the basioccipital, articulate with the vertebral column (Weitzman, 1967; Rosen
and Patterson, 1969; Fink and Weitzman, 1982). This character apparently is
independently derived in Hiodon (Greenwood, 1973; Fink and Weitzman, 1982), and
11
the condition in salmonids is identical to neoteleosts, to the extent that Fink and
Weitzman (1982) suggest the possibility that Neoteleostei might need to be expanded
to include Salmoniformes. This configuration of the occipital condyle is also found in
Lepidogalaxias (Fink, 1984a). Finally, Fink and Weitzman (1982) concluded that
Diplophos was the most basal member of Stomiiformes, as opposed to Vinciguerria
or Polymetme, the conclusion of Weitzman (1967).
The monophyly of Neoteleostei has remained generally accepted (Lauder and
Liem, 1983; Johnson, 1992; Johnson and Patterson, 1996). Johnson (1992) suggested
that an important neoteleost synapomorphy is a shift in the insertion of the third
internal levator muscle from the fourth pharyngobranchial to the fifth upper
pharyngobranchial toothplate; he listed this synapomorphy among the four "most
important" for Neoteleostei, excluding the rostral cartilage listed by Fink and
Weitzman (1982) from his list.
Most authors have also agreed that Stomiiformes is sister to all other
neoteleosts (Lauder and Liem, 1983; Johnson, 1992; Johnson and Patterson, 1996;
Nelson, 2006). However, Olney et al. (1993) concluded that the jellynose fishes
(Ateleopodidae) were not lampriforms as previously thought, and placed ateleopodids
in an unresolved trichotomy with stomiiforms and eurypterygians.
There have been few molecular studies investigating the relationships of
Stomiiformes with other fishes. Analyses based on whole mitochondrial genome
sequences and including up to three representative stomiiform species have yielded a
monophyletic Neoteleostei with Stomiiformes sister to Eurypterygii (Ishiguro et al.,
12
2003; Miya et al., 2003; Simmons and Miya, 2004). In contrast, a study based on data
from the RAG1, 12S rRNA, and 16S rRNA genes and including two representative
stomiiforms recovered Stomiiformes in a clade with osmeroids and galaxioids (López
et al., 2004). Whereas the mitogenomic studies agree with the currently prevailing
view of stomiiform relationships, López et al. (2004) echoes the earlier hypothesis of
Weitzman (1967).
The primary goal of this study is to provide a robust test of the phylogenetic
position of Stomiiformes with respect to all major previous hypotheses.
Simultaneously and inseparably, it is necessary to test the monophyly of Neoteleostei
as currently defined. Additionally, the relationships of Ateleopodidae relative to
Stomiiformes and Eurypterygii are examined.
Methods
Taxon Sampling
Taxon sampling was broad, including all of the major groups with which
Stomiiformes has at some time been linked in the literature (Table 2.1). A total of 80
species were sampled, including 11 stomiiforms, two ateleopodids, 21 eurypterygians
(of which four were aulopiforms), 20 "protacanthopterygians" (sensu Nelson 2006),
13 ostarioclupeomorphs, 10 elopomorphs, and three osteoglossomorphs. Amia calva
was used to root the trees.
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Genes
The data set is composed of sequences from three protein-coding nuclear
genes (RAG1, MYH6, and ZIC1) and one protein-coding mitochondrial gene (COI).
Genes were selected for analysis on the basis of several criteria: (1) relatively slowly-
evolving, and thus more likely to be helpful in resolving deep phylogeny; (2) single-
copy so that there was little or no doubt that the sequences I obtained represented
orthologous and not paralogous genes; and (3) fragments could be successfully
amplified for most or all of the targeted taxa. Several additional candidate genes were
investigated and subsequently rejected for analysis because of failure to meet one or
more of the criteria.
The recombination activating gene 1 (RAG1) is one of two RAG genes that
both encode enzymes with important immune function in vertebrates. These enzymes
are responsible for shuffling and recombining the several hundred VDJ genes into
combinations that produce millions of different antibodies (Sadofsky, 2004). The
RAG1 gene is well characterized and widely used for reconstruction of vertebrate
phylogenies (Hrbek et al., 2006; Miya et al., 2007; Jackman et al., 2007).
The ZIC1 and MYH6 genes were both recently developed as markers for fish
phylogenetics (Li et al., 2007). The alpha-myosin heavy chain (MYH6) gene is
expressed in the cardiac muscle of vertebrates. It codes for one of the six chains that
make up a myosin II filament, the structure that produces contractile force in a muscle
cell through articulation with an actin filament (Berg et al., 2001). The zinc finger
14
protein 1 (ZIC1) gene is expressed in the cerebellum and is involved in regulation of
neural development (Aruga et al., 1998).
The cyctochrome c oxidase gene I (COI) is the only mitochondrial gene
included in the dataset. Its protein product is the last enzyme in the electron transport
chain of cellular respiration (Capaldi, 1990). The COI gene is widely used in
eukaryote systematics (Schulte and de Quieroz, 2008; Jørgensen et al., 2008; Meixner
et al., 2007). It is also the gene used for most animal taxa by the Consortium for the
Barcode of Life (Kress and Erickson, 2008; Savolainen et al., 2005).
Data Collection and Alignment.
I isolated total genomic DNA from tissue samples using either the DNeasy
Blood & Tissue Kit (QIAGEN, Valencia, CA, USA) or a standard desalting protocol
followed by alcohol precipitation. Preserved tissue for Ateleopus japonicus was not
available, but a sample of previously extracted DNA was generously provided by
Masaki Miya (Natural History Museum, Chiba, Japan).
Target sequences were amplified using the polymerase chain reaction (Saiki et
al., 1988) using standard methods. A number of templates had low DNA
concentrations, which is common for meso- and bathypelagic fishes; for other taxa,
DNA concentration or quality was poor because the tissues had been poorly preserved
or stored. For templates in which I suspected the DNA was of poor quality (i.e.,
fragments were broken and short), I amplified target sequences using multiple primer
pairs, each pair amplifying a shorter subregion of the total fragment (Table 2.2). For
15
templates with low DNA concentration, I employed a "nested" PCR protocol, in
which the product of a first PCR reaction was used as a template for a second round
of PCR using a set of primers that are internal relative to the original set.
Successfully amplified target sequences were purified using one of three
methods: the QIAquick PCR Purification Kit (QIAGEN, Valencia, CA, USA) for
spin column purification, the AMPure magnetic bead purification system (Agencourt,
Beverly, MA, USA), or (for the majority of sequences) enzymatic digestion with
ExoSAP-It (USB/Affymetrix, Santa Clara, CA, USA). The purification process
separates the amplified, double-stranded sequence from undesired molecules that
could interfere with successful sequencing, including unincorporated primers and
dNTPs.
Purified PCR products were cycle sequenced (Sanger et al., 1977) using dye-
labeled terminators, specifically the BigDye Terminator Cycle Sequencing Kit
(Applied Biosystems, Foster City, CA, USA). Sequences were visualized on an ABI
3100xl automated sequencer in the KU DNA Sequencing Core Facility.
I used the program Sequencher v.4.1 (1991) to view the raw sequence data,
combine forward and reverse sequences (and, where applicable, multiple short
fragments) into single full-length consensus sequences, correct base miscalls by the
sequencer, and trim the sequences of any messy ends.
Alignment of sequences was done by eye. As I used exons of protein coding
genes, alignment by amino acid sequence was straightforward and unambiguous. The
program Se-Al (Rambaut, 2002) was used for manipulation of sequences and
16
alternating between displays of amino acid and nucleotide sequences during the
alignment process.
The final concatenated data matrix was composed of 858 nucleotides from the
RAG1 gene, 705 from the MYH6 gene, 951 from the ZIC1 gene, and 831 from the
COI gene, for a total of 3,345 data columns. Of these, 1621 were constant, 207 were
uninformative, and 1517 were phylogenetically informative.
Sequence Evaluation
To examine whether base compositional bias was present in my dataset, I
tested each gene fragment for each target taxon for overall GC content (i.e., percent
of nucleotides that are guanine or cytosine) and GC content at third codon positions.
If there is no base compositional bias, one would expect GC content to be
approximately 50%. Third positions were also evaluated by themselves because the
degeneracy of the genetic code means that mutations at third positions are more likely
than those at other positions to be synonymous; therefore, tendency toward base
compositional bias is less constrained at third positions by selection against amino
acid change. Base composition was evaluated using the program Codonw (Peden,
1999). I tested the null hypothesis of base compositional stationarity among taxa
using the chi-square test implemented in PAUP* 4.0 (Swofford, 2003).
I examined the extent of codon usage bias in my dataset by calculating the
effective number of codons (NC) (Wright, 1990) for each gene fragment for each
taxon. Codon usage bias is possible because of the redundancy of the genetic code,
17
with 64 possible nucleotide triplets coding for 20 amino acids. If all possible triplets
coding for the same amino acid are present in equal frequency in a sequence, there is
no codon bias; if some triplets are "used" more frequently than others to code for the
same amino acid, bias is present. The effective number of codons is a statistic used to
express the overall level of codon usage bias in a sequence (Wright, 1990). Possible
values for NC range from 20 (if only one possible triplet is used for each amino acid)
to 61 (if synonymous triplets are present at nearly equal frequencies; that is, codon
usage is random). I calculated NC for sequences using the program Codonw (Peden,
1999).
Phylogenetic Analysis.
I performed a parsimony analysis on the concatenated data matrix in the
program PAUP*4.0 (Swofford, 2003), using a heuristic search with 10,000 random
addition sequence replicates. The Tree Bisection and Reconnection (TBR) algorithm
was specified to search the treespace as widely as possible. I evaluated the support for
clades in the analysis using the nonparametric bootstrap as implemented in PAUP*
(Felsenstein, 1985), with 1,000 bootstrap replicates.
Maximum likelihood analysis was performed in the program GARLI v.0.95
(Zwickl, 2006) under the general time reversible model of evolution with a gamma
distribution of rates among sites, allowing for a proportion of invariant sites
(GTR+I+Γ). Six independent runs were performed, each beginning with a random
18
starting tree and progressing for 10,000 generations after the last improvement in
topology. I implemented the nonparametric bootstrap in GARLI with 100 replicates.
I performed Bayesian inference of phylogeny using the program MrBayes
v.3.1 (Huelsenbeck and Ronquist, 2001). Four simultaneous runs were performed,
each with four chains, three of which were "heated" chains. The analysis was run for
four million generations, the first 25% of which were discarded as burn-in. Data
partitioning was done by genome and, for the mitochondrial gene, by codon position,
for a total of four partitions (nuclear genes, mitochondrial gene first positions,
mitochondrial gene second positions, and mitochondrial gene third positions). This
partitioning scheme was the best-performing a priori scheme for producing stable
topology in Bayesian analysis in several vertebrate DNA datasets (McGuire et al.,
2007; Oaks, 2008). It avoids excessive underparameterization, a serious problem for
phylogenetic inference (Huelsenbeck, 1995; Sullivan and Swofford, 1997). A
common alternate scheme of partitioning that incorporates gene identity as well as
codon position, which in this data set would have yielded twelve partitions, has been
shown to cause problems with overparameterization in other datasets (McGuire et al.,
2007; Oaks, 2008) leading to less stable topology and branch length estimation.
For each data partition, I used MrModeltest v2.2 (Nylander, 2008) to choose,
from among the 24 substitution models that are supported by MrBayes, the model that
best fit the data in that partition. For the nuclear gene partition, the model chosen was
GTR+I+Γ; for the mitochondrial first positions partition, the model was SYM+I+Γ;
19
for the mitochondrial second positions partition, the model was FB1+Γ; for the
mitochondrial third positions partition, the model was GTR+Γ.
Results
Sequence Evaluation
There is some evidence of base compositional and codon bias in the sequences
(Tables 2.3–2.6). Base compositional bias was highest in the RAG1 gene (mean
57.9% GC overall; mean 74% GC at third positions), moderate in the ZIC1 gene
(mean 56.4% GC overall; mean 63.4% GC at third positions), and lowest in MYH6
(mean 49.1% GC overall; mean 58.1% GC at third positions) and COI (mean 46.8%
GC overall; mean 44.5% at third positions). Codon bias was higher in RAG1 (mean
NC 44.28) and COI (mean NC 46.50) and lower in ZIC1 (mean NC 53.90) and MYH6
(mean NC 52.21).
The null hypothesis of base compositional stationarity among taxa was
rejected by the chi-square test for RAG1 (p=0.00001), MYH6 (p=0.00559), and COI
(p=0.00152). The null hypothesis of stationarity was not rejected at the 0.05 level for
ZIC1 (p=0.06706). When third positions were excluded, base compositional
stationarity was not rejected for any of the genes (p=1.0 for each).
20
Phylogenetic Analysis
A single optimal tree was recovered by each method of analysis (Figures 2.1–
2.3). The trees produced by all three methods of analysis are similar in topology, with
resolution and branch support weakest in the parsimony tree. In all three trees, the
stomiiform clade is placed with the osmeroid and galaxioid fishes. In the parsimony
tree, the stomiiform Vinciguerria is placed sister to a clade composed of osmeroids,
galaxioids, and all other stomiiforms. In the Bayesian and maximum likelihood trees,
the order Stomiiformes is recovered as monophyletic and in a clade with the
osmeroids and galaxioids. The clade Neoteleostei as currently defined is not
recovered as a monophyletic group in any of the trees.
In all three trees, a monophyletic Eurypterygii is recovered, with
Ateleopodidae placed as its sister group. Branch support for both eurypterygian
monophyly and the sister group relationship between ateleopodids and eurypterygians
is strong in the likelihood and Bayesian trees, but very weak in the parsimony tree.
The enigmatic Lepidogalaxias salamandroides is never recovered with the
galaxioids, osmeroids, or esocoids, but is instead placed sister to all other euteleosts
or, in the parsimony analysis, placed in an unresolved trichotomy with Clupeiformes
and Euteleostei. The affiliation of the included retropinnid, Retropinna semoni, is
solidly with the galaxiids (or at least Galaxias) rather than with the osmerids. The
position of Galaxiella is not stable among the trees, and while it is not recovered as
part of a monophyletic Galaxioidei in either the Bayesian or maximum likelihood
21
trees, its placement outside the clade is not well supported by either bootstrap or
posterior probability values.
The alepocephaloids are never recovered sister to the argentinoids, but rather
are placed sister to Ostariophysi in all three trees. A monophyletic
Ostarioclupeomorpha is never recovered in any of the trees, even if Alepocephaloidei
is included. Similarly, Elopomorpha is not monophyletic in any of the three trees, but
is instead recovered as two graded clades in each topology, although composition of
the two clades differs in the parsimony tree versus the other two trees.
Discussion
The results of this study support the phylogenetic hypothesis proposed by
Weitzman (1967) that stomiiforms are most closely related to osmeroids and
galaxioids. The hypothesis originally proposed by Rosen (1973) that stomiiforms are
the basal neoteleost group is not supported by these data. The conclusions of
Weitzman (1967) are further corroborated by the recovery of Vinciguerria sister to
the other included stomiiforms in this analysis, with Diplophos recovered as a more
derived member of the group. Weitzman (1967) considered Vinciguerria one of the
most basal stomiiforms, whereas Fink and Weitzman (1982), interpreting stomiiforms
as neoteleosts, considered Diplophos the most basal stomiiform.
Much of the morphological evidence for the monophyly of Neoteleostei is
open to alternative interpretations. For example, a retractor dorsalis muscle is also
found in cyprinids, gars, Amia, and Lepidogalaxias (Fink and Weitzman, 1982; Fink,
22
1984a); under any existing hypothesis of fish phylogeny, this character must have
evolved more than once and/or been lost in some lineages. A paired rostral cartilage
is also found in salmonids and even Fink and Weitzman (1982) suggest that it could
be a homologous structure to the neoteleost character that has not fused. Type 4 tooth
attachment is also found in Esox (Fink, 1981) and is probably in need of more
thorough sampling, particularly among juveniles, as the character is most prevalent
among juvenile stomiiforms and lower eurypterygians. The occipital condyle
composed of both basioccipital and exoccipital is also found in salmonids and
Lepidogalaxias, and has certainly been independently derived in Hiodon (Fink and
Weitzman, 1982; Fink, 1984a); further investigation may well prove it to be a
euteleost, rather than a neoteleost, synapomorphy.
Although monophyly of Neoteleostei sensu lato is rejected, the monophyly of
Rosen's (1973) clade Eurypterygii is supported in all analyses, in each case with
ateleopodids sister to eurypterygians. This suggests a possible redefinition of the
clade Neoteleostei, to include only Atelepodidae + Eurypterygii, but not
Stomiiformes. The conclusions of Olney et al. (1993) that ateleopodids are not
lampriforms but instead basal neoteleosts are supported.
The phylogenetic position of Lepidogalaxias recovered in the present study,
sister to all other euteleosts, is novel. The proper placement of this unusual monotypic
genus has been debated since Mees (1961) originally described it as a galaxiid. While
most authors have placed Lepidogalaxias somewhere within Galaxiidae (Williams,
1987; Begle, 1991; Begle, 1992; Johnson and Patterson, 1996; Williams, 1996) or
23
sister to it (Frankenberg, 1969), similarities with umbrids and esocids have frequently
been noted and Rosen (1974) considered Lepidogalaxias and the esociforms to be
sisters. Fink (1984a) noted that, like neoteleosts, Lepidogalaxias has a retractor
dorsalis muscle as well as an occipital condyle composed of both basioccipital and
exoccipital; he placed Lepidogalaxias in an unresolved trichotomy with the salmonids
and the neoteleosts. Waters et al. (2000) used DNA sequence data from the
cyctochrome b and 16S rRNA genes to test the existing phylogenetic hypotheses for
Lepidogalaxias, and recovered the genus sister to the galaxioids; however, their
analysis included only galaxioids, esociforms, and salmonids. The present placement
of Lepidogalaxias as sister to all other euteleosts represents a new hypothesis of
relationship that deserves further investigation. The genus must certainly play a
critical role in ongoing investigations of euteleost phylogeny.
Even with the troublesome genus Lepidogalaxias excluded, galaxioid
monophyly has been controversial. Rosen (1974) suggested that retropinnids are
sister to osmerids, a relationship that was recovered by Waters et al. (2002) with
DNA sequence data. Most other authors, however, conclude that retropinnids and
galaxiids compose a monophyletic Galaxioidei (Fink, 1984a; Begle, 1991; Johnson
and Patterson, 1996; Williams, 1996). The present analyses recover Retropinna sister
to Galaxias or, in the parsimony tree, nested within the galaxiids. None of the
analyses recovers a monophyletic Galaxiidae, and only the parsimony analysis
recovers reciprocally monophyletic galaxioid and osmeroid clades. The difficulty lies
with Galaxiella, and is suspected to be due to missing data: the DNA sample
24
extracted for this species was of very low concentration and the RAG1 gene was
never successfully sequenced for this taxon. This study was not intended to resolve
relationships within the galaxioid + osmeroid clade, but it can be said that the results
do not support the monophyletic retropinnid + osmerid group of Rosen (1974) and
Waters et al (2002).
The placement in all three trees of Alepocephaloidei sister to Ostariophysi is
in conflict with the widely accepted view (Begle, 1992; Johnson and Patterson, 1996;
Nelson, 2006) that alepocephaloids are sister to the argentinoids, a relationship first
proposed by Greenwood and Rosen (1971). However, some earlier authors
considered alepocephaloids closely related to clupeomorphs (Berg, 1940; Gosline,
1960). More recently, a study based on whole mitochondrial genomic data recovered
alepocephaloids nested within Ostarioclupeomorpha (Ishiguro et al., 2003).
Furthermore, Ahlstrom et al. (1984a) found that the ontogeny of alepocephaloids did
not support a close relationship with the argentinoids. It is clear that further
investigation of the phylogenetic affiliations of alepocephaloids is warranted.
The fact that neither Elopomorpha nor Ostarioclupeomorpha are recovered as
monophyletic groups is most directly attributable to the fact that resolution is
generally lower at the deepest nodes of the trees, which may be due to saturation
effects at deep levels of divergence. With this dataset, the monophyly of these groups
can be neither confirmed nor confidently rejected. This simply demonstrates that
problems involving the relationships of taxa whose origins and divergences are so
25
ancient should be addressed with DNA sequences that are even more slowly evolving
than those used here.
26
Table 2.1. Taxon sampling and tissue numbers; classification following Nelson (2006). Neopterygii
Amiiformes Amia calva KU 3491
Teleostei
Osteoglossomorpha Hiodontiformes
Hiodon alosoides KU 2537 Osteoglossiformes
Chitala chitala KU 2544 Gnathonemus petersi KU 2513
Elopomorpha Elopiformes
Elops saurus KU 5860 Megalops cyprinoides KU 5661
Albuliformes Albula vulpes KU 3814 Halosauropsis macrochir KU 5945 Notacanthus chemnitzii KU 5937
Anguilliformes Moringua javanica KU 4407 Gymnothorax melatremus KU 7238 Derichthys serpentinus KU 5320 Serrivomer beanii KU 5953
Saccopharyngiformes Eurypharynx pelecanoides KU 5908
Ostarioclupeomorpha Clupeiformes
Engraulis eurystole KU 5153 Opisthonema oglinum KU 5846 Dorosoma cepedianum KU 7325
Gonorhynchiformes Chanos chanos KU 1603 Gonorhynchus greyi EBU 22823
Cypriniformes
Pimephales promelas KU 5956 Catostomus commersoni KU 5969
Characiformes
Colossoma sp. KU 3081 Siluriformes
Ictalurus punctatus Genbank Noturus gyrinus KU 1821 Plotosus lineatus KU 4730 Arius felis KU 5161
Gymnotiformes Apteronotus albifrons KU 2528
27
Euteleostei Argentiniformes
Argentina striata KU 3283 Dolichopteryx sp. KU 6522 Nansenia longicauda KU 6511 Bathylagus longirostris KU 5333 Leuroglossus stilbius KU 3140
Alepocephaliformes Normichthys operosus KU 5310 Sagamichthys abei KU 2394 Xenodermichthys copei KU 5276 Rouleina attrita KU 6515
Osmeriformes Mallotus villosus KU 3139 Thaleichthys pacificus KU 3135 Retropinna semoni EBU 22355 Lepidogalaxias salamandroides EBU 21545
Galaxias maculatus EBU 22353 Galaxiella nigrostriata EBU 21542
Salmoniformes Prosopium williamsoni UW 048051 Oncorhynchus keta KU 3228
Esociformes Esox lucius KU 5414 Umbra limi KU 2568
Neoteleostei Stomiiformes
Diplophos taenia KU 3781 Bonapartia pedaliota KU 3789 Margrethia obtusirostra ORI 1406 Gonostoma elongatum KU 5384 Polyipnus clarus KU 3563 Polymetme thaeocoryla KU 3547 Vinciguerria nimbaria KU 3733 Yarrella blackfordi LIM A84 Astronesthes gemmifer KU 3106 Borostomias elucens ORI 1403 Chirostomias pliopterus KU 3113
Ateleopodiformes Ateleopus japonicus ORI Ijimaia antillarum KU 5411
Eurypterygii Aulopiformes
Synodus foetens KU 5069 Chlorophthalmus agassizii KU 1477 Benthalbella dentata KU 3239 Alepisaurus ferox KU 5393
Myctophiformes Neoscopelus macrolepidotus KU 3297 Diaphus dumerilii KU 1481 Hygophum hygomii KU 5303
Lampriformes
28
Lampris guttatus KU 5402 Lophotus lacepede KU 6557 Zu cristatus KU 5289 Regalecus glesne KU 5286
Polymixiiformes Polymixia lowei KU 5952
Percopsiformes Percopsis transmontana KU 1891
Gadiformes
Gadus morhua Genbank
Ophidiiformes Brotulotaenia nigra KU 6529
Lophiiformes Lophiodes reticulatus KU 5180
Acanthopterygii Mugiliformes
Mugil trichodon KU 5833 Stephanoberyciformes
Melamphaes suborbitalis KU 6532 Gasterosteiformes
Gasterosteus aculeatus KU 5986 Scorpaeniformes
Scorpaenopsis diabolus KU 7052 Perciformes
Apogon apogonoides KU 7185
KU = University of Kansas; EBU = Evolutionary Biology Unit, Australian Museum; LIM = Leibniz Institut für Meeresbiologie, Germany; ORI = Ocean Research Institute, University of Tokyo, Japan
29
Table 2.2. Primers used for DNA amplification and sequencing. Gene Primer Primer Sequence RAG1 Of2a 5' CTGAGCTGCAGTCAGTACCATAAGATGT 3' RAG1 Wf2i2b 5' ATGGGBGATRTCAGCGAGAA 3' RAG1 Wf2i3b 5' GATGARAAGATGGTGCGNGAGVT 3' RAG1 Wr2i3b 5' WARTTBCCRTTCATCCTCAT 3' RAG1 Wr2i4b 5' CTRTARCGRCACAGCTGGTC 3' RAG1 Wr3b 5' ATCTGGADGTGTAGTGCCAG 3' RAG1 Or2a 5' CTGAGTCCTTGTGAGCTTCCATRAAYTT 3' ZIC1 AF1c 5' GGACGCAGGACCGCARTAYC 3' ZIC1 AF2c 5' GGACCGCAGTATCCCACYMT 3' ZIC1 AF3c 5' TTYTCGGGGGACATGTAYGG 3' ZIC1 AR1c 5' CTGTGTGTGTCCTTTTGTGRATYTT 3' ZIC1 AR2c 5' GTGTGTCCTTTTGTGAATTTTYAGRT 3' ZIC1 AR3c 5' GCRGCCATRTTCATGTTCA 3' MYH6 A3F1c 5' CATMTTYTCCATCTCAGATAATGC 3' MYH6 A3F2c 5' GGAGAATCARTCKGTGCTCATCA 3' MYH6 A3F3c 5' TCCCGWGTCACYTTTCAGC 3' MYH6 A3R1c 5' ATTCTCACCACCATCCAGTTGAA 3' MYH6 A3R2c 5' CTCACCACCATCCAGTTGAACAT 3' MYH6 A3R3c 5' GTGAAGCCRAGCACRTCAAA 3' COI L5698d 5' AGGCCTCGATCCTACAAAGKTTTAGTTAAC 3' COI L5956d 5' CACAAAGACATTGGCACCCT 3' COI H6864d 5' AGWGTWGCKAGTCAGCTAAA 3' COI H6855d 5' AGTCAGCTGAAKACTTTTAC 3' a. Designed by G.O. Ortí, University of Nebraska - Lincoln b. Designed by N.I. Holcroft, University of Kansas c. Designed by C. Li, University of Nebraska - Lincoln d. Designed by M. Miya, Natural History Museum and Institute, Chiba, Japan
30
Table 2.3. Base composition and codon usage in the RAG1 gene. Species RAG1 GC RAG1 GC3 RAG1 ENC Amia calva 0.524 0.637 50.61 Hiodon alosoides 0.590 0.760 42.99 Notopterus chitala 0.551 0.684 50.56 Gnathonemus petersi 0.553 0.697 48.60 Elops saurus 0.629 0.898 33.82 Megalops cyprinoides 0.560 0.676 44.84 Albula vulpes 0.607 0.775 41.08 Halosauropsis macrochir 0.550 0.648 47.48 Notacanthus chemnitzii 0.656 0.917 34.51 Moringua javanica 0.546 0.672 53.29 Gymnothorax melatremus 0.605 0.728 44.78 Derichthys serpentinus 0.642 0.893 36.12 Serrivomer beanii 0.613 0.779 39.86 Eurypharynx pelecanoides 0.602 0.794 41.14 Engraulis eurystole 0.607 0.784 41.33 Opisthonema oglinum 0.605 0.762 38.64 Dorosoma cepedianum 0.613 0.775 38.49 Chanos chanos 0.530 0.597 54.94 Gonorhynchus greyi 0.564 0.724 46.42 Pimephales promelas 0.531 0.615 55.18 Catostomus commersoni 0.518 0.582 50.81 Colossoma sp. 0.518 0.584 54.81 Noturus gyrinus 0.469 0.469 56.50 Ictalurus punctatus 0.479 0.490 57.49 Plotosus lineatus 0.470 0.475 56.65 Arius felis 0.472 0.477 54.90 Apteronotus albifrons 0.511 0.591 51.87 Argentina striata 0.593 0.772 41.24 Dolichopteryx sp. 0.604 0.800 41.53 Nansenia longicauda 0.622 0.857 36.53 Bathylagus longirostris 0.636 0.881 35.41 Leuroglossus stilbius 0.624 0.879 35.67 Normichthys operosus 0.660 0.963 29.20 Sagamichthys abei 0.510 0.593 60.39 Xenodermichthys copei 0.690 0.996 27.15 Rouleina attrita 0.686 0.996 27.25 Mallotus villosus 0.632 0.867 36.97 Thaleichthys pacificus 0.618 0.852 37.20 Retropinna semoni 0.568 0.711 46.08 Lepidogalaxias salamandroides 0.649 0.906 34.38
31
Galaxias maculatus 0.562 0.706 45.54 Galaxiella nigrostriata — — — Prosopium williamsoni 0.578 0.753 41.09 Oncorhynchus keta 0.580 0.739 43.81 Esox lucius 0.569 0.715 47.28 Umbra limi 0.545 0.636 52.23 Diplophos taenia 0.585 0.746 42.19 Bonapartia pedaliota 0.609 0.809 39.92 Margrethia obtusirostra 0.636 0.880 34.59 Gonostoma elongatum 0.614 0.825 39.01 Polyipnus clarus 0.626 0.869 36.85 Polymetme thaeocoryla 0.615 0.834 37.40 Vinciguerria nimbaria 0.561 0.689 48.85 Yarrella blackfordi 0.615 0.834 38.08 Astronesthes gemmifer 0.656 0.915 33.08 Borostomias elucens 0.673 0.955 31.55 Chirostomias pliopterus 0.670 0.957 30.93 Ateleopus japonicus 0.605 0.829 41.33 Ijimaia antillarum 0.599 0.809 42.32 Synodus foetens 0.522 0.580 50.94 Chlorophthalmus agassizii 0.582 0.716 46.81 Benthalbella dentata 0.562 0.676 47.51 Alepisaurus ferox 0.552 0.690 48.17 Neoscopelus macrolepidotus 0.635 0.878 34.87 Diaphus dumerilii 0.566 0.710 46.16 Hygophum hygomii 0.596 0.755 45.46 Lampris guttatus 0.512 0.548 51.32 Lophotus lacepede 0.548 0.667 48.40 Zu cristatus 0.578 0.777 42.97 Regalecus glesne 0.550 0.734 44.96 Polymixia lowei 0.556 0.685 49.82 Percopsis transmontana 0.594 0.803 41.42 Gadus morhua 0.552 0.669 48.39 Brotulotaenia nigra 0.517 0.603 57.00 Lophiodes reticulatus 0.515 0.589 54.83 Mugil trichodon 0.535 0.637 52.90 Melamphaes suborbitalis 0.556 0.682 47.46 Gasterosteus aculeatus 0.559 0.719 49.27 Scorpaenopsis diabolus 0.551 0.700 48.92 Apogon apogonoides 0.507 0.569 57.52 Mean 0.579 0.740 44.28
32
Table 2.4. Base composition and codon usage in the MYH6 gene. Species MYH6 GC MYH6 GC3 MYH6 ENC Amia calva 0.461 0.485 57.73 Hiodon alosoides 0.548 0.732 43.04 Notopterus chitala 0.488 0.560 53.91 Gnathonemus petersi — — — Elops saurus 0.486 0.557 55.94 Megalops cyprinoides 0.513 0.636 50.22 Albula vulpes 0.503 0.589 44.95 Halosauropsis macrochir 0.487 0.554 48.78 Notacanthus chemnitzii 0.483 0.574 52.32 Moringua javanica 0.501 0.597 53.80 Gymnothorax melatremus 0.577 0.848 36.51 Derichthys serpentinus 0.493 0.578 47.74 Serrivomer beanii 0.492 0.565 53.16 Eurypharynx pelecanoides 0.482 0.538 55.04 Engraulis eurystole 0.504 0.645 45.19 Opisthonema oglinum 0.483 0.580 53.33 Dorosoma cepedianum 0.490 0.598 55.14 Chanos chanos 0.456 0.454 59.87 Gonorhynchus greyi 0.446 0.466 61.00 Pimephales promelas 0.482 0.534 49.10 Catostomus commersoni 0.472 0.535 59.14 Colossoma sp. 0.492 0.595 56.29 Noturus gyrinus 0.428 0.380 52.13 Ictalurus punctatus 0.438 0.408 52.00 Plotosus lineatus 0.439 0.424 51.62 Arius felis 0.488 0.586 56.02 Apteronotus albifrons 0.442 0.437 56.81 Argentina striata 0.462 0.504 51.19 Dolichopteryx sp. 0.480 0.557 52.95 Nansenia longicauda 0.461 0.494 51.65 Bathylagus longirostris 0.473 0.511 53.21 Leuroglossus stilbius 0.476 0.562 52.92 Normichthys operosus 0.480 0.546 56.82 Sagamichthys abei 0.477 0.549 58.86 Xenodermichthys copei 0.479 0.555 57.02 Rouleina attrita 0.478 0.551 57.35 Mallotus villosus 0.477 0.559 52.37 Thaleichthys pacificus 0.474 0.533 58.05 Retropinna semoni 0.521 0.651 49.29 Lepidogalaxias salamandroides 0.437 0.416 56.06
33
Galaxias maculatus 0.489 0.573 55.93 Galaxiella nigrostriata 0.436 0.417 57.43 Prosopium williamsoni 0.477 0.544 54.50 Oncorhynchus keta 0.474 0.533 56.56 Esox lucius 0.474 0.520 55.60 Umbra limi 0.479 0.552 53.27 Diplophos taenia 0.478 0.543 54.32 Bonapartia pedaliota 0.478 0.561 56.81 Margrethia obtusirostra 0.487 0.567 57.66 Gonostoma elongatum 0.495 0.596 55.43 Polyipnus clarus 0.485 0.559 57.31 Polymetme thaeocoryla 0.495 0.585 56.82 Vinciguerria nimbaria 0.499 0.604 47.50 Yarrella blackfordi 0.493 0.604 56.35 Astronesthes gemmifer 0.502 0.618 53.87 Borostomias elucens 0.479 0.570 55.28 Chirostomias pliopterus 0.483 0.554 56.67 Ateleopus japonicus — — — Ijimaia antillarum 0.483 0.551 55.78 Synodus foetens 0.452 0.473 52.08 Chlorophthalmus agassizii 0.487 0.557 53.29 Benthalbella dentata 0.481 0.548 52.68 Alepisaurus ferox 0.482 0.578 52.13 Neoscopelus macrolepidotus 0.515 0.646 52.72 Diaphus dumerilii 0.584 0.864 36.90 Hygophum hygomii 0.583 0.841 38.95 Lampris guttatus 0.517 0.647 51.86 Lophotus lacepede 0.556 0.781 42.10 Zu cristatus 0.560 0.766 44.34 Regalecus glesne 0.563 0.803 40.23 Polymixia lowei 0.483 0.570 52.59 Percopsis transmontana 0.517 0.649 46.41 Gadus morhua 0.516 0.672 49.93 Brotulotaenia nigra 0.492 0.584 54.93 Lophiodes reticulatus 0.524 0.647 46.85 Mugil trichodon 0.552 0.753 43.95 Melamphaes suborbitalis 0.496 0.595 46.40 Gasterosteus aculeatus 0.544 0.730 43.32 Scorpaenopsis diabolus 0.504 0.607 52.06 Apogon apogonoides 0.477 0.536 53.19 Mean 0.491 0.581 52.21
34
Table 2.5. Base composition and codon usage in the ZIC1 gene. Species ZIC1 GC ZIC1 GC3 ZIC1 ENC Amia calva 0.517 0.510 61.00 Hiodon alosoides 0.508 0.454 61.00 Notopterus chitala 0.525 0.517 59.38 Gnathonemus petersi 0.565 0.631 59.94 Elops saurus 0.586 0.568 58.47 Megalops cyprinoides 0.545 0.592 54.74 Albula vulpes 0.528 0.530 59.57 Halosauropsis macrochir 0.559 0.623 54.35 Notacanthus chemnitzii 0.535 0.552 56.76 Moringua javanica 0.536 0.542 60.69 Gymnothorax melatremus — — — Derichthys serpentinus 0.592 0.706 52.25 Serrivomer beanii 0.521 0.498 59.49 Eurypharynx pelecanoides 0.519 0.509 61.00 Engraulis eurystole 0.564 0.625 53.87 Opisthonema oglinum 0.534 0.532 61.00 Dorosoma cepedianum 0.533 0.528 61.00 Chanos chanos 0.527 0.520 59.94 Gonorhynchus greyi 0.535 0.552 58.74 Pimephales promelas 0.575 0.656 53.44 Catostomus commersoni 0.584 0.665 52.50 Colossoma sp. — — — Noturus gyrinus — — — Ictalurus punctatus 0.619 0.733 48.02 Plotosus lineatus 0.617 0.746 48.14 Arius felis — — — Apteronotus albifrons 0.536 0.552 59.60 Argentina striata 0.549 0.584 55.64 Dolichopteryx sp. 0.540 0.568 56.58 Nansenia longicauda 0.552 0.601 55.46 Bathylagus longirostris 0.584 0.699 49.43 Leuroglossus stilbius 0.536 0.550 56.74 Normichthys operosus 0.575 0.668 53.62 Sagamichthys abei 0.577 0.676 51.42 Xenodermichthys copei 0.574 0.663 54.82 Rouleina attrita 0.577 0.676 52.94 Mallotus villosus 0.542 0.568 55.75 Thaleichthys pacificus 0.537 0.552 59.79 Retropinna semoni 0.523 0.514 58.44 Lepidogalaxias salamandroides 0.543 0.568 61.00 Galaxias maculatus — — —
35
Galaxiella nigrostriata 0.503 0.456 61.00 Prosopium williamsoni — — — Oncorhynchus keta 0.578 0.701 48.01 Esox lucius 0.573 0.671 54.68 Umbra limi 0.542 0.581 59.91 Diplophos taenia 0.546 0.580 56.05 Bonapartia pedaliota 0.637 0.857 42.81 Margrethia obtusirostra 0.589 0.712 47.76 Gonostoma elongatum 0.563 0.632 54.34 Polyipnus clarus 0.566 0.638 53.74 Polymetme thaeocoryla 0.551 0.598 56.83 Vinciguerria nimbaria 0.562 0.636 57.70 Yarrella blackfordi 0.551 0.598 54.48 Astronesthes gemmifer 0.564 0.637 52.29 Borostomias elucens 0.551 0.602 54.96 Chirostomias pliopterus 0.568 0.645 53.22 Ateleopus japonicus — — — Ijimaia antillarum 0.610 0.781 46.86 Synodus foetens 0.568 0.658 52.70 Chlorophthalmus agassizii 0.555 0.614 58.39 Benthalbella dentata 0.565 0.641 54.93 Alepisaurus ferox 0.597 0.736 43.08 Neoscopelus macrolepidotus 0.571 0.676 53.17 Diaphus dumerilii 0.595 0.726 50.02 Hygophum hygomii 0.587 0.713 50.32 Lampris guttatus 0.548 0.566 56.38 Lophotus lacepede 0.596 0.733 44.87 Zu cristatus 0.641 0.866 35.63 Regalecus glesne 0.602 0.745 45.32 Polymixia lowei 0.556 0.628 57.86 Percopsis transmontana 0.577 0.672 51.46 Gadus morhua 0.580 0.699 49.90 Brotulotaenia nigra 0.609 0.790 44.40 Lophiodes reticulatus 0.584 0.700 48.77 Mugil trichodon 0.578 0.693 51.02 Melamphaes suborbitalis 0.601 0.744 47.74 Gasterosteus aculeatus 0.600 0.747 46.39 Scorpaenopsis diabolus 0.588 0.716 47.96 Apogon apogonoides 0.576 0.681 53.26 Mean 0.564 0.634 53.90
36
Table 2.6. Base composition and codon usage in the COI gene. Species CO1 GC CO1 GC3 CO1 ENC Amia calva 0.472 0.444 41.96 Hiodon alosoides 0.456 0.397 45.88 Notopterus chitala 0.442 0.375 44.76 Gnathonemus petersi 0.479 0.480 50.45 Elops saurus 0.496 0.513 46.09 Megalops cyprinoides 0.449 0.375 49.36 Albula vulpes 0.442 0.362 44.87 Halosauropsis macrochir 0.449 0.361 39.22 Notacanthus chemnitzii 0.421 0.325 38.58 Moringua javanica 0.442 0.364 47.03 Gymnothorax melatremus 0.481 0.471 51.40 Derichthys serpentinus 0.494 0.524 42.20 Serrivomer beanii 0.442 0.365 46.74 Eurypharynx pelecanoides 0.438 0.383 48.37 Engraulis eurystole 0.459 0.399 38.71 Opisthonema oglinum 0.473 0.442 44.44 Dorosoma cepedianum 0.485 0.473 45.68 Chanos chanos 0.484 0.466 41.87 Gonorhynchus greyi 0.509 0.560 47.73 Pimephales promelas 0.430 0.314 47.81 Catostomus commersoni 0.422 0.314 45.70 Colossoma sp. 0.458 0.422 50.36 Noturus gyrinus 0.478 0.466 47.15 Ictalurus punctatus 0.480 0.430 47.71 Plotosus lineatus 0.448 0.407 40.37 Arius felis 0.422 0.302 39.41 Apteronotus albifrons 0.450 0.415 44.55 Argentina striata 0.475 0.484 53.27 Dolichopteryx sp. 0.473 0.477 48.55 Nansenia longicauda 0.497 0.534 49.12 Bathylagus longirostris 0.510 0.572 44.57 Leuroglossus stilbius 0.469 0.453 48.63 Normichthys operosus 0.503 0.549 46.39 Sagamichthys abei 0.513 0.563 44.05 Xenodermichthys copei 0.496 0.509 46.69 Rouleina attrita 0.418 0.310 43.32 Mallotus villosus 0.468 0.447 48.40 Thaleichthys pacificus 0.476 0.471 51.48 Retropinna semoni 0.505 0.535 47.19 Lepidogalaxias salamandroides 0.419 0.360 45.42 Galaxias maculatus 0.443 0.390 57.20
37
Galaxiella nigrostriata 0.416 0.332 49.17 Prosopium williamsoni 0.477 0.469 50.18 Oncorhynchus keta 0.462 0.440 55.28 Esox lucius 0.437 0.372 46.38 Umbra limi 0.467 0.455 45.79 Diplophos taenia 0.522 0.585 46.05 Bonapartia pedaliota 0.487 0.487 47.10 Margrethia obtusirostra 0.486 0.491 43.16 Gonostoma elongatum 0.477 0.464 53.00 Polyipnus clarus 0.480 0.487 54.39 Polymetme thaeocoryla 0.465 0.447 41.68 Vinciguerria nimbaria 0.492 0.509 54.34 Yarrella blackfordi 0.467 0.444 44.60 Astronesthes gemmifer 0.516 0.542 38.75 Borostomias elucens 0.514 0.574 44.32 Chirostomias pliopterus 0.510 0.563 43.24 Ateleopus japonicus 0.430 0.357 41.53 Ijimaia antillarum 0.431 0.357 44.09 Synodus foetens 0.444 0.397 47.78 Chlorophthalmus agassizii 0.475 0.466 52.44 Benthalbella dentata 0.473 0.462 50.62 Alepisaurus ferox 0.499 0.536 43.90 Neoscopelus macrolepidotus 0.463 0.424 49.99 Diaphus dumerilii 0.491 0.498 45.37 Hygophum hygomii 0.493 0.523 43.80 Lampris guttatus 0.502 0.542 43.12 Lophotus lacepede 0.450 0.381 45.71 Zu cristatus 0.430 0.329 47.19 Regalecus glesne 0.457 0.404 39.64 Polymixia lowei 0.444 0.390 45.08 Percopsis transmontana 0.501 0.520 42.72 Gadus morhua 0.420 0.303 48.04 Brotulotaenia nigra 0.480 0.469 53.25 Lophiodes reticulatus 0.503 0.560 53.61 Mugil trichodon 0.484 0.478 49.04 Melamphaes suborbitalis 0.484 0.482 47.54 Gasterosteus aculeatus 0.449 0.397 43.15 Scorpaenopsis diabolus 0.471 0.461 43.31 Apogon apogonoides 0.460 0.401 48.84 Mean 0.468 0.445 46.50
38
39
40
41
Chapter Three
Intrarelationships of Stomiiformes
Introduction
The 417 species of stomiiform fishes are currently classified by most authors
in four families: Gonostomatidae, the bristlemouths, including the genera Bonapartia,
Cyclothone, Gonostoma, Margrethia, and Sigmops; Phosichthyidae, the lightfishes,
including the genera Ichthyococcus, Phosichthys, Pollichthys, Polymetme,
Vinciguerria, Woodsia, and Yarrella; Sternoptychidae, the hatchetfishes and allies,
including the genera Araiophos, Argyripnus, Argyropelecus, Danaphos, Maurolicus,
Polyipnus, Sonoda, Sternoptyx, Thorophos, and Valenciennellus; and Stomiidae, the
dragonfishes, including the genera Aristostomias, Astronesthes, Bathophilus,
Borostomias, Chauliodus, Chirostomias, Echiostoma, Eupogonesthes, Eustomias,
Flagellostomias, Grammatostomias, Heterophotus, Idiacanthus, Leptostomias,
Malacosteus, Melanostomias, Neonesthes, Odontostomias, Opostomias,
Pachystomias, Parabathophilus, Photonectes, Photostomias, Rhadinesthes, Stomias,
Tactostoma, Thysanactis, and Trigonolampa (Nelson, 1994; Harold and Weitzman,
1996; Eschmeyer, 1998). A fifth family is recognized by Nelson (2006), who erected
the provisional family Diplophidae to contain the incertae sedis genera Diplophos,
Manducus, and Triplophos.
Stomiiforms have been consistently recognized as a cohesive group since
Brauer (1906) arranged them together in his classification. Over the next hundred
42
years, the classification of stomiiform subgroups has (like the classifications of many
other fish groups) undergone a great deal of flux. Stomiiform classification in
particular has been complicated by the wealth of new taxa discovered with increased
exploration of the deep ocean and by the extensive morphological homoplasy within
the group (Fink, 1984b; Harold and Weitzman, 1996).
Regan (1923) recognized two groups within the stomiiforms: the first was
composed of Sternoptychidae (which at the time included only the deep-bodied
forms: Argyropelecus, Polyipnus, and Sternoptyx) and Gonostomatidae sensu lato
(which also included Diplophos, Triplophos, and Manducus; the genera now placed
in Phosichthyidae; and the maurolicine genera, now considered the non-deep-bodied
sternoptychids). The second group was composed entirely of genera now considered
members of Stomiidae. In contrast, Parr (1927; 1930) named three major groups: the
Heterophotodermi, composed of the deep-bodied sternoptychids and Gonostomatidae
sensu lato; the Lepidophotodermi, composed of Stomias and, provisionally at least,
Chauliodus; and the Gymnophotodermi, composed of all other known stomiids.
Regan and Trewavas (1929; 1930) agreed with the conclusions of Regan (1923),
while Beebe and Crane (1939) concurred with Parr (1927; 1930) on the three major
groups of stomiiforms.
Grey (1960) considered the relationships of the family Gonostomatidae sensu
lato and concluded that it was composed of three lineages: one composed of Yarrella,
Polymetme, Pollichthys, Vinciguerria, Ichthyococcus, Woodsia, Phosichthys, and
Triplophos; one composed of Argyripnus, Maurolicus, Sonoda, Valenciennellus,
43
Danaphos, and Thorophos; and one composed of Margrethia, Cyclothone,
Gonostoma, Bonapartia, Manducus, and Diplophos.
Weitzman (1974) concluded that there were two major clades within
Stomiiformes, which he gave the rank of infraorder: Gonostomata, composed of the
gonostomatids (including Diplophos, Manducus, and Triplophos, at the time placed
within Gonostomatidae) and the sternoptychids; and Photichthya, composed of the
stomiids and a family he proposed, Phosichthyidae. The phosichthyids had all been
previously placed in the Gonostomatidae and correspond almost exactly, with the
exception of Triplophos, to one of the three lineages shown by Grey (1960).
Weitzman (1974) described Phosichthyidae as "a collection of relatively primitive
Photichthya", giving no synapomorphies for the family. The two infraorders were
diagnosed largely by the number of pectoral fin radials; members of Gonostomata
have four and members of Photichthya have three or fewer. However, four pectoral
fin radials is the plesiomorphic condition for stomiiforms and therefore cannot be a
synapomorphy for the Gonostomata (Ahlstrom et al., 1984b; Harold and Weitzman,
1996). Weitzman also concluded that the maurolicine genera, formerly placed in
Gonostomatidae and representing another of Grey's (1960) lineages, were closely
related to the deep-bodied sternoptychids and placed the maurolicines in
Sternoptychidae.
Ahlstrom (1974) recognized a single family composed of all stomiiforms that
have elongate gill rakers, which includes the gonostomatids, the sternoptychids, and
44
the phosichthyids, as well as the genus Stomias. The character state of elongate gill
rakers, however, is plesiomorphic for stomiiforms (Ahlstrom et al., 1984b).
Weitzman (1967) and Fink and Weitzman (1982) were concerned with the
relationships of Stomiiformes to other fishes, but provide important hypotheses about
the sister group to other stomiiforms. Weitzman (1967) noted that Vinciguerria and
Polymetme were morphologically primitive relative to other stomiiforms, and
concluded that they were the most basal taxa. Fink and Weitzman (1982), on the other
hand, argued that Diplophos (sensu lato, including the genus Manducus) is sister to
all other stomiiforms.
Fink (1976; 1985) revised the superfamily Stomiatoidea, then composed of
the families Astronesthidae (Astronesthes, Borostomias, Heterophotus, Neonesthes,
and Rhadinesthes), Chauliodontidae (Chauliodus), Stomiatidae (Stomias),
Melanostomiatidae (Bathophilus, Chirostomias, Echiostoma, Eustomias,
Flagellostomias, Grammatostomias, Leptostomias, Melanostomias, Odontostomias,
Opostomias, Pachystomias, Photonectes, Tactostoma, Thysanactis, and
Trigonolampa), Idiacanthidae (Idiacanthus), and Malacosteidae (Aristostomias,
Malacosteus, and Photostomias). His phylogenetic analyses showed that the five
stomiatoid families compose a single monophyletic group, and his revision united
them as the family Stomiidae (Fink, 1985). The previously recognized families are
still retained in most classifications at the subfamily rank (Nelson, 1994; Nelson,
2006), even though Astronesthinae and Melanostomiinae seem to be grades rather
than clades (Fink, 1976; Fink, 1985).
45
Ahlstrom et al. (1984) concluded that Manducus was sister to all other
stomiiforms, with Diplophos the next genus to diverge. They supported the
monophyly of the Sternoptychidae sensu Weitzman (1974) based on a similar pattern
of photophore development in all sternoptychids they examined. They also concluded
that Bonapartia, Margrethia, and Gonostoma composed a monophyletic group based
on prolonged metamorphosis, although they conceded that it was possible that
Cyclothone was a member of that monophyletic group and had lost the prolonged
metamorphosis as part of the overall paedomorphosis seen in Cyclothone.
Harold and Weitzman (1996) placed Woodsia sister to Stomiidae, with
Ichthyococcus sister to that clade, and Phosichthys sister to that one in turn. They
recovered Phosichthyidae as a grade leading to Stomiidae, with Triplophos sister to
all of Photichthya. Harold (1998) recovered Gonostomatidae sensu stricto sister to
Sternoptychidae, with that clade sister to the Triplophos + Photichthya clade. He
placed a clade composed of Diplophos and Manducus sister to all other stomiiforms.
Despite the numerous previous hypotheses of relationship for stomiiforms,
most authors admit that we still know little about the relationships within the group
(Fink, 1985; Harold and Weitzman, 1996; Harold, 1998). Several of the currently
recognized taxa are assumed to be paraphyletic (Nelson, 2006). All previous
hypotheses of relationship for the order as a whole have been based exclusively on
morphological data, which is known to be highly homoplastic in both adults and
larvae (Ahlstrom et al., 1984b; Fink, 1984b; Harold and Weitzman, 1996). The
46
present study is the first use of DNA sequence data to address the order-wide problem
of stomiiform phylogeny.
Methods
Taxon Sampling
The goal of the taxon sampling for this study was to include at least one
species in every stomiiform genus; however, complete sampling of all genera was not
possible because of the difficulty of obtaining tissue samples for some genera. A total
of 63 stomiiform species are included, representing 43 of the 53 genera (Table 3.1).
Stomiiform genera not included in this study are Manducus, Araiophos, Argyripnus,
Danaphos, Sonoda, Thorophos, Woodsia, Eupogonesthes, Opostomias, and
Parabathophilus. Six other lower euteleosts are included, along with an ateleopodid,
an aulopiform, and a myctophiform. The trees are rooted with the clupeiform
Chirocentrus dorab.
Genes
The data set includes sequences from three protein-coding nuclear genes
(RAG1, MYH6, and ENC1) and one protein-coding mitochondrial gene (COI). Genes
were selected using the same criteria outlined in Chapter Two. The zinc finger gene
ZIC1, used in the analysis of stomiiform interrelationships, could not be reliably
amplified in many taxa within the order, so it was excluded from this analysis.
Instead, the present analysis included data from the ectodermal neural cortex gene
47
ENC1, a gene known to govern early neural development in mice (Hernandez et al.,
1997). ENC1 was established as a marker for fish phylogenetics by Li et al. (2007).
Data from the RAG1, MYH6, and COI genes were also included in this study.
Data Collection and Alignment
I used either the DNeasy Blood & Tissue Kit (QIAGEN, Valencia, CA, USA)
or a standard desalting protocol with alcohol precipitation to extract total genomic
DNA from tissue samples. A tissue sample for Thysanactis dentex was not available,
but previously extracted DNA was generously provided by Masaki Miya (Natural
History Museum, Chiba, Japan).
I amplified target sequences using the polymerase chain reaction (Saiki et al.,
1988) with standard protocols. Many of the stomiiform tissues were of poor quality,
yielding low DNA concentrations. Consequently, I frequently employed a "nested"
PCR protocol for these difficult templates, using multiple rounds of amplification.
The product of the first amplification would serve as the template for the next
reaction using a set of primers internal to the previous pair (Table 3.2).
Successfully amplified sequences were purified using either enzymatic
digestion with ExoSAP-It (USB/Affymetrix, Santa Clara, CA, USA), magnetic bead
separation with the AMPure system (Agencourt, Beverly, MA, USA), or spin column
purification with the QIAquick PCR Purification Kit (QIAGEN, Valencia, CA, USA).
Purified products were cycle sequenced (Sanger et al., 1977) using the BigDye
Terminator Cycle Sequencing Kit (Applied Biosystems, Foster City, CA, USA).
48
Sequences were read on an ABI 3100xl automated sequencer in the KU DNA
Sequencing Core Facility.
I viewed the sequences, cleaned up base miscalls, concatenated fragments,
and trimmed sequences using the program Sequencer v. 4.1 (1991). Sequences were
aligned by eye in the program Se-Al (Rambaut, 2002) using amino acid translations
as a guide. As all sequences used were from protein-coding genes, alignment was
unambiguous.
The final concatenated data matrix was composed of 843 nucleotides from the
RAG1 gene, 732 nucleotides from the MYH6 gene, 792 from the ENC1 gene, and
831 from the COI gene, for a total of 3198 bases. Of the included characters, 1578
were invariant, 286 of variable characters were uninformative, and 1334 were
phylogenetically informative.
Sequence Evaluation
I examined base compositional and codon usage biases in the sequences by
calculating the overall GC content, GC content at third codon positions, and the
effective number of codons, Nc (Wright, 1990) for each gene fragment for each taxon.
The program Codonw (Peden, 1999) was used to calculate GC content and Nc.
Phylogenetic Analysis
Parsimony analysis of the concatenated data matrix was performed in the
program PAUP*4.0 (Swofford, 2003), using heuristic search with 10,000 random
49
addition sequence replicates and the Tree Bisection and Reconnection (TBR)
algorithm. I evaluated the support for clades in the analysis using the nonparametric
bootstrap implemented in PAUP* (Felsenstein, 1985), with 1,000 bootstrap
replicates.
I performed maximum likelihood analysis in the program GARLI v.0.95
(Zwickl, 2006) under the general time reversible model of evolution with a gamma
distribution of rates among sites, allowing for a proportion of invariant sites
(GTR+I+Γ). Six independent runs were performed, each beginning with a random
starting tree and progressing for 10,000 generations after the last improvement in
topology. I implemented the nonparametric bootstrap in GARLI with 100 replicates.
I used the program MrBayes v.3.1 (Huelsenbeck and Ronquist, 2001) to
reconstruct the phylogeny using Bayesian inference. Four simultaneous runs were
performed, each with four chains: one cold chain and three "heated" chains. The
analysis was run for four million generations, the first 25% of which were discarded
as burn-in. Data partitioning was done by genome and, for the mitochondrial gene, by
codon position, for a total of four partitions (nuclear genes, mitochondrial gene first
positions, mitochondrial gene second positions, and mitochondrial gene third
positions). Justification of this partitioning scheme is outlined in the Methods of
Chapter Two. I used MrModeltest v2.2 (Nylander, 2008) to choose the most
appropriate substitution model for each data partition. For the nuclear gene partition,
the model chosen was GTR+I+Γ; for each of the three mitochondrial data partitions,
the model was GTR+Γ.
50
Results
Sequence Evaluation
There is some evidence of base compositional and codon bias in the
sequences (Tables 3.3–3.6). Base compositional bias was most pronounced in the
RAG1 (mean 62.5% GC overall; mean 85.0% GC at third positions) and ENC1
(mean 60.7% GC overall; mean 84.5% GC at third positions) genes, and not
pronounced in MYH6 (mean 48.4% GC overall; mean 57.7% GC at third positions)
and COI (mean 48.3% GC overall; mean 48.3% at third positions). Codon bias was
strong in RAG1 (mean NC 37.25), ENC1 (mean NC 37.07.28), moderate in COI
(mean NC 46.22) and weak in ZIC1 (mean NC 55.37).
The null hypothesis of base compositional stationarity among taxa was
rejected by the chi-square test for RAG1 (p=0.00001), ENC1 (p=0.00107), and COI
(p=0.03498). The null hypothesis of stationarity was not rejected for MYH6 (p=1.0).
When third positions were excluded, base compositional stationarity was not rejected
for any of the genes (p=1.0 for each).
Phylogenetic Analysis
The trees produced by all three methods of analysis were similar in topology
(Figures 3.1–3.3), with resolution and branch support lowest in the parsimony tree. In
general, bootstrap support and posterior probability values were suboptimal, and
surprisingly were lower overall than values for the trees in Chapter Two, which
addressed deeper divergences. Branch lengths for early divergences within
51
Stomiiformes were short, which probably contributed to lower support values for
clades.
All three analysis methods produced topologies with a monophyletic
Stomiiformes. In all three trees, the genera Valenciennellus, Pollichthys, and
Vinciguerria were recovered as the most basal taxa within the order. In the parsimony
and likelihood trees, a clade composed of those three genera is sister to all other
stomiiforms. In the Bayesian tree, a Valenciennellus + Pollichthys clade is sister to all
other stomiiforms, with Vinciguerria then sister to the remaining taxa.
Of the four or five currently recognized stomiiform families, none is
recovered as monophyletic with its present composition. Gonostomatidae is
monophyletic in each topology only if Bonapartia is excluded. A clade composed of
sternoptychids, phosichthyids, Diplophos, Triplophos, and Chauliodus is recovered in
all three topologies. Stomiidae is monophyletic only if Chauliodus is excluded
(Stomias must also be excluded in the parsimony tree). Phosichthys is sister to the
stomiids in all three trees, with Ichthyococcus sister to the Phosichthys + Stomiidae
clade.
Both Phosichthyidae and the sternoptychid subfamily Maurolicinae are
generally suspected of being polyphyletic (Nelson, 2006), so it is not surprising that
they are not monophyletic in any of the three trees. The subfamily Sternoptychinae
composed of the deep-bodied hatchetfishes Argyropelecus, Polyipnus, and
Sternoptyx, on the other hand, has traditionally been considered a monophyletic
group. It is not recovered as a monophyletic lineage in any of the three current trees.
52
The relationships within the family Stomiidae recovered here are generally
similar to the conclusions of Fink (1985), the most striking differences being the
placement of Stomias sister to all other stomiids in the likelihood and Bayesian trees
and outside the family altogether in the parsimony tree, and the recovery of
Chauliodus outside the family in all three trees.
Discussion
The present analyses reject the hypothesis of Fink and Weitzman (1982) that
Diplophos is sister to all other stomiiforms. The conclusion of Weitzman (1967) that
Vinciguerria and Polymetme are among the most basal members of the order is partly
supported: Vinciguerria is among the basal members of the stomiiform lineage in all
three trees, but Polymetme is strongly supported as sister to Yarrella in a much more
derived position in the tree. Furthermore, Valenciennellus and Pollichthys are also
recovered at the base of the tree.
The present analyses support the strictest interpretation of Gonostomatidae
except that Bonapartia is excluded, making the family even smaller. All three trees
support the hypothesis that the abundant genus Cyclothone is nested within
Gonostoma (Harold, 1998; Miya and Nishida, 2000).
Harold (1998) concluded that the monotypic genus Triplophos was not related
to the gonostomatids, but was instead closer to the phosichthyids. The present
analyses do not recover Triplophos with either of these groups, but recover them
53
instead in a clade with the hatchetfishes Sternoptyx and Argyropelecus sladeni.
Whether any morphological characters support this placement is unknown.
The lack of a monophyletic Sternoptychinae in any of the tree topologies is
unexpected, given the strong overall similarity among the three hatchetfish genera.
Monophyly of the hatchetfish clade is apparently supported by many morphological
characters (Schultz, 1961; Harold and Weitzman, 1996). It is possible that the present
topologies failed to recover a group that is truly monophyletic, probably because of
short branch lengths at deeper levels within the stomiiform clade. If the
diversification of hatchetfishes was rapid, there may be insufficient molecular signal
to detect the monophyly of the lineage. On the other hand, it is also possible that
Sternoptychinae is truly not monophyletic, and the deep-bodied condition evolved
multiple times, or was lost in Maurolicus and Triplophos. Many of the morphological
characters supporting monophyly of the subfamily are characters associated with a
deep-bodied, laterally compressed body form, such as a long, slender preopercle and
opercle and a vertically oriented pelvic girdle. The genus Argyropelecus was also not
recovered as monophyletic, with Argyropelecus sladeni recovered separately from the
other two included species, A. gigas and A. aculeatus. Although Harold (1993)
concluded that Argyropelecus is monophyletic, Harold and Weitzman (1996) only
found three characters supporting its monophyly, and each of them is homoplastic.
Neither the family Phosichthyidae nor the subfamily Maurolicinae are
recovered as monophyletic groups in the present trees; instead, their members are
scattered throughout the phylogeny. Both of these groups were long suspected to be
54
paraphyletic collections of generalized stomiiform species, so this finding is neither
surprising nor troubling. However, taxon sampling among Maurolicinae was
particularly weak in this study. Inclusion of the missing taxa in future analyses may
signficantly alter the phylogeny.
The trees produced here indicate that the viperfish genus Chauliodus is not a
stomiid. The parsimony tree, at least, places Stomias outside the family as well — a
placement, which, if it were accepted, would necessitate a new name for the
remainder of the family. These two genera already differ from other stomiids by
having scales, or a scalelike hexagonal pattern on the body. Chauliodus also differs
from all other stomiids by having the dorsal fin far anterior relative to the pelvic fins.
All other stomiids have the dorsal fin origin above or posterior to the pelvic fin origin.
Parr (1927; 1930) recognized that Stomias and Chauliodus might not belong with
other stomiids and placed them in their own group, his Lepidophotodermi. The close
relationship between Stomias and Chauliodus proposed by many authors (Parr, 1927;
Fink, 1985; Harold and Weitzman, 1996; Nelson, 2006) is not supported here.
The relationships of the loosejaws, in the stomiid subfamily Malacosteinae,
have been difficult to resolve. The common name for the group comes from the
extremely long jaws with the floor of the mouth completely absent in Aristostomias,
Malacosteus, and Photostomias. The genus Pachystomias, which has a partial
membrane between the mandibular rami, has also been recognized as a member of a
monophyletic Malacosteinae (Goodyear, 1980; Fink, 1985). The genera
Pachystomias, Aristostomias, and Malacosteus are remarkable for their ability to both
55
produce and detect long-wavelength red light. Red wavelengths attenuate quickly in
seawater, so the red part of the spectrum is filtered out of the downwelling sunlight
from the surface long before light reaches the mesopelagic zone, and most midwater
organisms have lost the ability to visually detect red wavelengths. The longwave-
detecting loosejaws produce red light in a photophore below the eye, illuminating
nearby prey items without alerting them to the fish's presence (Partridge and Douglas,
1995; Herring, 2002). The absence of a floor of the mouth and longwave light
production/detection are both compelling characters that would support different
phylogenetic hypotheses. Fink (1985) left the subfamily as a polytomy. The present
analyses recover Pachystomias as sister to a clade composed of the other three
genera, meaning that the loss of the floor of the mouth is a synapomorphy and
longwave detection is homoplastic. This conclusion is not surprising given that the
mechanism of longwave detection in Malacosteus is different from that in
Aristostomias and Pachystomias. While Aristostomias and Pachystomias each have
three visual pigments they produce themselves, Malacosteus detects red light using a
visual pigment derived from chlorophyll, which it must obtain from its diet by eating
zooplankton that have in turn eaten chlorophyllous phytoplankton (Partridge and
Douglas, 1995; Herring, 2002). A sister group relationship between Malacosteus and
Photostomias is further supported by the loss of the mental barbel present in other
stomiids (Fink, 1985).
In the likelihood and Bayesian trees, where branch lengths are shown, it is
clear that branch lengths are very short for the earliest divergences within the
56
stomiiform clade. This suggests a rapid early evolutionary radiation within
Stomiiformes. Known stomiiform fossils, dating to the Miocene, Eocene, and even
the Tertiary, are morphologically similar to extant taxa and in many cases can be
placed in, or sister to, moderately derived extant genera (Gregorová, 1989; Prokofiev,
2001; Carnevale, 2002; Prokofiev and Bannikov, 2002; Carnevale, 2008). The
paleontological evidence supports the hypothesis that much of the morphological
diversification of stomiiform fishes happened early in the history of the lineage.
Reasons for a rapid early stomiiform radiation could be related to the invasion
of a new habitat, the deep open ocean. The phylogenetic hypothesis from the previous
chapter suggests that the stomiiform sister group is a clade composed of galaxioids
and osmeroids, all of which are freshwater, brackish, anadromous, or marine in
littoral or epipelagic zones. Indeed, the uniqueness of stomiiform adaptations to the
deep sea, such as the photophore structure not seen in any other fishes (Fink and
Weitzman, 1982) indicate that stomiiforms are the product of an independent invasion
of the deep ocean. Considering that the deep open ocean is by far the largest habitat
on the planet, making up an estimated 95% or more of the volume where life is
known to occur (Herring, 2002), it might seem that entering this habitat would
provide boundless opportunity for diversification; however, the deep open ocean also
seems relatively homogenous, with few barriers to dispersal. Although there is
evidence that sister species in the genus Cyclothone exhibit allopatric distributions,
suggesting vicariant speciation (Miya and Nishida, 1996; Miya and Nishida, 1997),
57
little is known about the patterns and processes of speciation in the ocean's
midwaters.
In summary, this study confirms that most of the classification currently in use
for stomiiform fishes does not reflect monophyletic groups. Clearly, much work
remains to be done to resolve the relationships of the fishes in this order. The
apparently rapid diversification of stomiiforms detected with this data set will require
a much larger molecular dataset to successfully resolve. In addition, taxa that were
missing from this analysis must be added to future analyses as tissue samples become
available for molecular work.
58
Table 3.1. Taxon sampling and tissue numbers; classification following Nelson (2006). Neopterygii
Teleostei Ostarioclupeomorpha
Clupeiformes Chirocentrus dorab Genbank
Euteleostei Argentiniformes
Argentina striata KU 3283 Nansenia longicauda KU 6511 Bathylagus longirostris KU 5333
Osmeriformes Mallotus villosus KU 3139 Thaleichthys pacificus KU 3135 Galaxias maculatus EBU 22353
Salmoniformes Oncorhynchus keta KU 3228
Neoteleostei Stomiiformes
"Diplophidae" (incertae sedis taxa) Diplophos taenia KU 3781 Triplophos hemingi COC
Gonostomatidae Bonapartia pedaliota KU 3789 Cyclothone acclinidens KU 2247 Cyclothone microdon KU 3736 Cyclothone parapallida SIO 02-47 Cyclothone pseudopallida SIO 02-47 Gonostoma elongatum KU 5384 Margrethia obtusirostra ORI 1406 Sigmops bathyphilus KU 3654 Sigmops longipinnis SIO 02-47
Sternoptychidae Maurolicinae
Maurolicus australis NMV 25100-004 Maurolicus weitzmani KU 3553 Valenciennellus tripunctulatus KU 3732
Sternoptychinae Argyropelecus aculeatus KU 3805 Argyropelecus gigas KU 5299 Argyropelecus sladeni KU 2259 Polyipnus clarus KU 3563 Polyipnus kiwiensis NMV 25167-012 Sternoptyx obscura ORI 1407 Sternoptyx pseudobscura KU 5299
Phosichthyidae Ichthyococcus ovatus KU 38789* Phosichthys argenteus NMV 23566 Pollichthys mauli KU 7273
59
Polymetme thaeocoryla KU 3547 Vinciguerria nimbaria KU 3733 Vinciguerria poweriae KU 1257 Yarrella blackfordi LIM A84
Stomiidae Astronesthinae
Astronesthes gemmifer KU 3106 Borostomias elucens ORI 1403 Heterophotus ophistoma KU 5277 Neonesthes capensis KU 7482 Rhadinesthes decimus KU 6506
Stomiinae Chauliodus danae KU 5382 Chauliodus sloani KU 3751 Stomias affinis ORI 1405 Stomias atriventer SIO 01-74 Melanostomiinae Bathophilus pawneei KU 3646 Bathophilus vaillanti KU 3102
Chirostomias pliopterus KU 3113 Echiostoma barbatum KU 5281 Eustomias filifer KU 8136 Eustomias furcifer KU 7464 Eustomias jimcraddocki KU 5895 Eustomias polyaster KU 5900 Flagellostomias boureei KU 3121 Grammatostomias flagellibarba KU 6509 Leptostomias gladiator KU 8148 Leptostomias longibarba KU 3695 Melanostomias bartonbeani KU 6514 Odontostomias micropogon COC Photonectes braueri NMV 25111-036 Photonectes margarita KU 7443 Tactostoma macropus KU 3237 Thysanactis dentex ORI Trigonolampa miriceps KU 3258
Idiacanthiinae Idiacanthus fasciola KU 3101 Malacosteinae Aristostomias polydactylus ORI 1408 Aristostomias scintillans KU 2292 Aristostomias tittmanni KU 3707 Malacosteus niger KU 3804 Pachystomias microdon NMV 25122-011 Photostomias guernei KU 3811
Ateleopodiformes Ijimaia antillarum KU 5411
Eurypterygii Aulopiformes
Synodus foetens KU 5069 Myctophiformes
Neoscopelus macrolepidotus KU 3297
60
*Number indicates voucher number; tissue harvested from whole fish preserved in ethanol. KU = University of Kansas; COC = Centro Oceanografico de Canarias; EBU = Evolutionary Biology Unit, Australian Museum; LIM = Leibniz Institut für Meeresbiologie, Germany; NMV = Museum Victoria, Australia; ORI = Ocean Research Institute, University of Tokyo, Japan; SIO = Scripps Institute of Oceanography
61
Table 3.2. Primers used for DNA amplification and sequencing. Gene Primer Primer Sequence RAG1 Of2a 5' CTGAGCTGCAGTCAGTACCATAAGATGT 3' RAG1 Wf2i2b 5' ATGGGBGATRTCAGCGAGAA 3' RAG1 Wf2i3b 5' GATGARAAGATGGTGCGNGAGVT 3' RAG1 Wr2i3b 5' WARTTBCCRTTCATCCTCAT 3' RAG1 Wr2i4b 5' CTRTARCGRCACAGCTGGTC 3' RAG1 Wr3b 5' ATCTGGADGTGTAGTGCCAG 3' RAG1 Or2a 5' CTGAGTCCTTGTGAGCTTCCATRAAYTT 3' ENC1 LF1c 5' GACATGCTGGAGTTTCAGGA 3' ENC1 LF2c 5' ATGCTGGAGTTTCAGGACAT 3' ENC1 LF3c 5' AAGAGCAAGGARCTGGTRGA 3' ENC1 LR1c 5' ACTTGTTRGCMACTGGGTCAAA 3' ENC1 LR2c 5' AGCMACTGGGTCAAACTGCTC 3' ENC1 LR3c 5' ATCTCTTTGGCYTTCTGGTC 3' MYH6 A3F1c 5' CATMTTYTCCATCTCAGATAATGC 3' MYH6 A3F2c 5' GGAGAATCARTCKGTGCTCATCA 3' MYH6 A3F3c 5' TCCCGWGTCACYTTTCAGC 3' MYH6 A3R1c 5' ATTCTCACCACCATCCAGTTGAA 3' MYH6 A3R2c 5' CTCACCACCATCCAGTTGAACAT 3' MYH6 A3R3c 5' GTGAAGCCRAGCACRTCAAA 3' COI L5698d 5' AGGCCTCGATCCTACAAAGKTTTAGTTAAC 3' COI L5956d 5' CACAAAGACATTGGCACCCT 3' COI H6864d 5' AGWGTWGCKAGTCAGCTAAA 3' COI H6855d 5' AGTCAGCTGAAKACTTTTAC 3' a. Designed by G.O. Ortí, University of Nebraska - Lincoln b. Designed by N.I. Holcroft, University of Kansas c. Designed by C. Li, University of Nebraska - Lincoln d. Designed by M. Miya, Natural History Museum and Institute, Chiba, Japan
62
Table 3.3. Base composition and codon usage in the RAG1 gene.
Species RAG1 GC RAG1 GC3 RAG1 NC Chirocentrus dorab 0.638 0.889 32.91 Oncorhynchus keta 0.580 0.739 43.810 Argentina striata 0.593 0.772 41.240 Nansenia longicauda 0.622 0.857 36.530 Bathylagus longirostris 0.636 0.881 35.410 Mallotus villosus 0.632 0.867 36.970 Galaxias maculatus 0.562 0.706 45.540 Thaleichthys pacificus 0.618 0.852 37.200 Ijimaia antillarum 0.599 0.809 42.320 Synodus foetens 0.522 0.580 50.940 Neoscopelus macrolepidotus 0.635 0.878 34.870 Diplophos taenia 0.585 0.746 42.190 Triplophos hemingi 0.587 0.752 44.150 Bonapartia pedaliota 0.609 0.809 39.920 Cyclothone acclinidens 0.592 0.792 43.190 Cyclothone microdon 0.589 0.783 44.560 Cyclothone parapallida 0.585 0.782 44.200 Cyclothone pseudopallida 0.591 0.771 41.080 Gonostoma elongatum 0.614 0.825 39.010 Sigmops bathyphilus 0.661 0.943 31.200 Sigmops longipinnis 0.624 0.859 37.890 Margrethia obtusirostra 0.636 0.880 34.590 Maurolicus australis — — — Maurolicus weitzmani 0.581 0.717 44.350 Valenciennellus tripunctulatus 0.578 0.718 47.190 Argyropelecus aculeatus 0.578 0.719 44.760 Argyropelecus gigas 0.579 0.734 42.040 Argyropelecus sladeni 0.576 0.721 43.600 Polyipnus clarus 0.626 0.869 36.850 Polyipnus kiwiensis 0.613 0.827 39.490 Sternoptyx obscura 0.586 0.755 43.570 Sternoptyx pseudobscura 0.584 0.752 43.770 Ichthyococcus ovatus 0.654 0.939 31.790 Phosichthys argenteus 0.672 0.976 29.520 Pollichthys mauli 0.533 0.636 52.730 Polymetme thaeocoryla 0.615 0.834 37.400 Vinciguerria nimbaria 0.561 0.689 48.850 Vinciguerria poweriae 0.590 0.733 41.710 Yarrella blackfordi 0.615 0.834 38.080 Astronesthes gemmifer 0.656 0.915 33.080 Borostomias elucens 0.673 0.955 31.550
63
Heterophotus operosus 0.662 0.947 30.240 Neonesthes capensis 0.673 0.969 30.250 Rhadinesthes decimus 0.674 0.959 30.170 Stomias affinis 0.618 0.846 34.520 Stomias atriventer 0.560 0.677 46.510 Chauliodus danae 0.607 0.814 39.350 Chauliodus sloani 0.601 0.798 40.660 Bathophilus pawneei 0.659 0.939 32.870 Bathophilus vaillanti 0.669 0.938 32.180 Chirostomias pliopterus 0.670 0.957 30.930 Echiostoma barbatum 0.661 0.933 32.060 Eustomias filifer 0.635 0.877 34.510 Eustomias furcifer 0.638 0.893 34.860 Eustomias jimcraddocki 0.641 0.891 34.840 Eustomias polyaster 0.598 0.772 40.690 Flagellostomias boureei 0.669 0.955 31.050 Grammatostomias flagellibarba 0.665 0.934 32.030 Leptostomias gladiator 0.673 0.973 29.740 Leptostomias longibarba 0.681 0.987 28.990 Melanostomias bartonbeani 0.519 0.588 54.790 Odontostomias micropogon 0.678 0.974 29.610 Pachystomias microdon 0.670 0.945 31.330 Photonectes braueri 0.667 0.967 30.360 Photonectes margarita 0.659 0.947 30.360 Tactostoma macropus 0.675 0.958 30.440 Thysanactis dentex 0.692 0.996 28.520 Trigonolampa miriceps 0.671 0.961 30.460 Idiacanthus fasciola 0.664 0.930 31.630 Aristostomias polydactylus 0.656 0.916 32.810 Aristostomias scintillans 0.644 0.882 36.050 Aristostomias tittmanni 0.654 0.918 33.500 Malacosteus niger 0.666 0.952 30.200 Photostomias guernei 0.663 0.926 32.740 Mean 0.625 0.850 37.251
64
Table 3.4. Base composition and codon usage in the MYH6 gene.
Species MYH6 GC MYH6 GC3 MYH6 NC Chirocentrus dorab 0.485 0.580 52.61 Oncorhynchus keta 0.472 0.543 56.87 Argentina striata 0.460 0.517 51.07 Nansenia longicauda 0.457 0.502 51.83 Bathylagus longirostris 0.471 0.524 52.67 Mallotus villosus — — — Galaxias maculatus — — — Thaleichthys pacificus 0.469 0.538 58.84 Ijimaia antillarum 0.483 0.551 55.78 Synodus foetens 0.446 0.472 51.99 Neoscopelus macrolepidotus 0.512 0.658 51.67 Diplophos taenia 0.472 0.540 53.83 Triplophos hemingi — — — Bonapartia pedaliota — — — Cyclothone acclinidens 0.498 0.620 59.08 Cyclothone microdon 0.543 0.735 45.30 Cyclothone parapallida — — — Cyclothone pseudopallida 0.553 0.742 44.35 Gonostoma elongatum 0.495 0.595 55.43 Sigmops bathyphilus — — — Sigmops longipinnis 0.483 0.566 54.61 Margrethia obtusirostra 0.481 0.567 57.65 Maurolicus australis 0.494 0.596 56.88 Maurolicus weitzmani 0.478 0.575 52.36 Valenciennellus tripunctulatus 0.498 0.623 56.63 Argyropelecus aculeatus 0.491 0.594 52.74 Argyropelecus gigas 0.483 0.578 54.96 Argyropelecus sladeni 0.481 0.574 56.62 Polyipnus clarus 0.479 0.558 56.92 Polyipnus kiwiensis — — — Sternoptyx obscura — — — Sternoptyx pseudobscura — — — Ichthyococcus ovatus 0.486 0.555 55.83 Phosichthys argenteus 0.481 0.565 55.49 Pollichthys mauli 0.474 0.536 56.77 Polymetme thaeocoryla 0.488 0.581 56.67 Vinciguerria nimbaria 0.499 0.604 47.50 Vinciguerria poweriae — — — Yarrella blackfordi 0.486 0.601 56.28 Astronesthes gemmifer 0.496 0.617 54.79 Borostomias elucens 0.473 0.569 55.87
65
Heterophotus operosus 0.478 0.570 57.11 Neonesthes capensis 0.482 0.579 58.18 Rhadinesthes decimus 0.478 0.570 57.77 Stomias affinis 0.481 0.564 53.54 Stomias atriventer 0.481 0.560 53.60 Chauliodus danae 0.488 0.588 54.98 Chauliodus sloani 0.485 0.581 53.07 Bathophilus pawneei 0.482 0.583 57.04 Bathophilus vaillanti 0.486 0.591 57.63 Chirostomias pliopterus 0.477 0.553 57.69 Echiostoma barbatum 0.478 0.574 58.14 Eustomias filifer 0.483 0.568 57.92 Eustomias furcifer 0.482 0.568 56.91 Eustomias jimcraddocki 0.488 0.581 57.00 Eustomias polyaster 0.483 0.574 56.73 Flagellostomias boureei 0.478 0.573 55.86 Grammatostomias flagellibarba 0.477 0.568 55.13 Leptostomias gladiator 0.481 0.566 55.80 Leptostomias longibarba 0.483 0.581 55.29 Melanostomias bartonbeani 0.482 0.574 57.64 Odontostomias micropogon 0.478 0.566 56.44 Pachystomias microdon 0.482 0.578 56.57 Photonectes braueri 0.476 0.568 56.07 Photonectes margarita 0.477 0.579 56.85 Tactostoma macropus 0.476 0.566 58.33 Thysanactis dentex — — — Trigonolampa miriceps 0.482 0.572 57.36 Idiacanthus fasciola 0.476 0.566 53.55 Aristostomias polydactylus 0.486 0.594 55.92 Aristostomias scintillans 0.494 0.591 58.22 Aristostomias tittmanni 0.487 0.582 55.13 Malacosteus niger 0.474 0.562 58.34 Photostomias guernei 0.484 0.590 58.69 Mean 0.484 0.577 55.37
66
Table 3.5. Base composition and codon usage in the ENC1 gene.
Species ENC1 GC ENC1 GC3 ENC1 NC Chirocentrus dorab 0.668 0.984 25.83 Oncorhynchus keta 0.595 0.828 37.46 Argentina striata 0.605 0.858 36.68 Nansenia longicauda 0.603 0.827 36.76 Bathylagus longirostris 0.646 0.960 29.47 Mallotus villosus — — — Galaxias maculatus — — — Thaleichthys pacificus 0.645 0.940 31.33 Ijimaia antillarum — — — Synodus foetens 0.519 0.583 51.04 Neoscopelus macrolepidotus 0.524 0.618 49.53 Diplophos taenia 0.603 0.838 37.80 Triplophos hemingi 0.606 0.827 37.79 Bonapartia pedaliota — — — Cyclothone acclinidens — — — Cyclothone microdon 0.630 0.902 33.47 Cyclothone parapallida 0.625 0.886 33.55 Cyclothone pseudopallida 0.634 0.901 32.71 Gonostoma elongatum 0.655 0.976 28.41 Sigmops bathyphilum 0.667 0.980 28.92 Sigmops longipinnis 0.668 0.988 28.99 Margrethia obtusirostra 0.651 0.964 29.31 Maurolicus australis 0.566 0.745 44.22 Maurolicus weitzmani 0.575 0.747 46.11 Valenciennellus tripunctulatus 0.607 0.845 34.19 Argyropelecus aculeatus 0.584 0.781 40.81 Argyropelecus gigas 0.596 0.821 39.41 Argyropelecus sladeni 0.593 0.820 38.83 Polyipnus clarus 0.584 0.773 42.41 Polyipnus kiwiensis 0.588 0.788 41.61 Sternoptyx obscura 0.617 0.870 35.26 Sternoptyx pseudobscura 0.616 0.865 35.85 Ichthyococcus ovatus — — — Phosichthys argenteus 0.618 0.930 29.72 Pollichthys mauli 0.651 0.924 32.70 Polymetme thaeocoryla 0.635 0.917 32.56 Vinciguerria nimbaria 0.613 0.833 38.57 Vinciguerria poweriae — — — Yarrella blackfordi 0.630 0.905 32.46 Astronesthes gemmifer 0.595 0.816 38.57 Borostomias elucens 0.652 0.951 30.74
67
Heterophotus operosus 0.585 0.793 40.15 Neonesthes capensis 0.594 0.825 38.78 Rhadinesthes decimus 0.651 0.959 29.69 Stomias affinis 0.636 0.905 33.54 Stomias atriventer 0.622 0.870 35.05 Chauliodus danae 0.634 0.914 30.58 Chauliodus sloani 0.627 0.896 32.12 Bathophilus pawneei 0.584 0.788 40.13 Bathophilus vaillanti 0.583 0.785 40.42 Chirostomias pliopterus 0.603 0.839 37.82 Echiostoma barbatum 0.592 0.813 39.17 Eustomias filifer 0.587 0.798 41.04 Eustomias furcifer 0.590 0.809 40.10 Eustomias jimcraddocki 0.587 0.802 40.09 Eustomias polyaster 0.584 0.793 41.59 Flagellostomias boureei 0.593 0.818 40.76 Grammatostomias flagellibarba 0.592 0.810 40.21 Leptostomias gladiator 0.596 0.831 39.47 Leptostomias longibarba 0.599 0.827 39.51 Melanostomias bartonbeani 0.591 0.807 39.15 Odontostomias micropogon 0.596 0.826 39.44 Pachystomias microdon 0.600 0.835 37.70 Photonectes braueri 0.595 0.829 38.87 Photonectes margarita 0.597 0.827 38.50 Tactostoma macropus 0.595 0.817 39.52 Thysanactis dentex — — — Trigonolampa miriceps 0.594 0.825 37.48 Idiacanthus fasciola 0.596 0.803 37.77 Aristostomias polydactylus 0.583 0.798 41.07 Aristostomias scintillans 0.585 0.798 40.74 Aristostomias tittmanni 0.585 0.801 40.64 Malacosteus niger 0.600 0.836 38.10 Photostomias guernei 0.618 0.880 34.47 Mean 0.607 0.845 37.07
68
Table 3.6. Base composition and codon usage in the COI gene.
Species COI GC COI GC3 COI NC Chirocentrus dorab 0.539 0.638 49.83 Oncorhynchus keta 0.462 0.440 55.28 Argentina striata 0.475 0.484 53.27 Nansenia longicauda 0.497 0.534 49.12 Bathylagus longirostris 0.510 0.572 44.57 Mallotus villosus 0.468 0.447 48.40 Galaxias maculatus 0.443 0.390 57.20 Thaleichthys pacificus 0.476 0.471 51.48 Ijimaia antillarum 0.431 0.357 44.09 Synodus foetens 0.444 0.397 47.78 Neoscopelus macrolepidotus 0.463 0.424 49.99 Diplophos taenia 0.522 0.585 46.05 Triplophos hemingi 0.487 0.513 50.54 Bonapartia pedaliota 0.487 0.487 47.10 Cyclothone acclinidens 0.460 0.429 42.67 Cyclothone microdon 0.469 0.462 43.56 Cyclothone parapallida 0.467 0.430 43.32 Cyclothone pseudopallida 0.467 0.430 43.32 Gonostoma elongatum 0.477 0.464 53.00 Sigmops bathyphilum 0.466 0.412 43.93 Sigmops longipinnis 0.455 0.397 43.02 Margrethia obtusirostra 0.486 0.491 43.16 Maurolicus australis 0.490 0.505 48.50 Maurolicus weitzmani 0.497 0.527 40.52 Valenciennellus tripunctulatus 0.468 0.426 44.29 Argyropelecus aculeatus 0.439 0.375 46.58 Argyropelecus gigas 0.448 0.397 45.48 Argyropelecus sladeni 0.481 0.491 46.03 Polyipnus clarus 0.480 0.487 54.39 Polyipnus kiwiensis 0.481 0.477 42.34 Sternoptyx obscura 0.487 0.486 43.95 Sternoptyx pseudobscura 0.449 0.387 49.09 Ichthyococcus ovatus 0.485 0.480 51.31 Phosichthys argenteus 0.511 0.559 43.48 Pollichthys mauli — — — Polymetme thaeocoryla 0.465 0.447 41.68 Vinciguerria nimbaria 0.492 0.509 54.34 Vinciguerria poweriae — — — Yarrella blackfordi 0.467 0.444 44.60 Astronesthes gemmifer 0.516 0.542 38.75 Borostomias elucens 0.514 0.574 44.32
69
Heterophotus operosus 0.469 0.453 48.59 Neonesthes capensis 0.489 0.490 40.68 Rhadinesthes decimus 0.501 0.534 47.83 Stomias affinis 0.515 0.570 41.30 Stomias atriventer 0.512 0.554 47.27 Chauliodus danae 0.490 0.502 48.90 Chauliodus sloani 0.509 0.571 49.72 Bathophilus pawneei 0.503 0.538 54.24 Bathophilus vaillanti 0.527 0.619 44.80 Chirostomias pliopterus 0.510 0.563 43.24 Echiostoma barbatum 0.492 0.524 51.32 Eustomias filifer 0.483 0.473 44.42 Eustomias furcifer 0.471 0.432 43.00 Eustomias jimcraddocki 0.486 0.488 40.33 Eustomias polyaster 0.482 0.468 43.24 Flagellostomias boureei 0.527 0.587 33.35 Grammatostomias flagellibarba 0.463 0.424 45.96 Leptostomias gladiator 0.490 0.491 44.10 Leptostomias longibarba 0.444 0.382 42.58 Melanostomias bartonbeani 0.446 0.350 38.80 Odontostomias micropogon 0.495 0.509 43.09 Pachystomias microdon 0.490 0.505 47.99 Photonectes braueri 0.501 0.535 47.13 Photonectes margarita 0.499 0.542 46.91 Tactostoma macropus 0.517 0.562 43.22 Thysanactis dentex — — — Trigonolampa miriceps 0.495 0.485 44.56 Idiacanthus fasciola 0.485 0.495 45.63 Aristostomias polydactylus 0.486 0.484 50.30 Aristostomias scintillans 0.458 0.435 40.73 Aristostomias tittmanni 0.472 0.458 52.03 Malacosteus niger 0.489 0.516 47.91 Photostomias guernei 0.458 0.408 48.37 Mean 0.483 0.483 46.22
70
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Appendix 1: Sequence Data for Chapter Two
Amia calva ACTAAAAGAGTGATTCAGTATTTTGCCAGCATTGCTGCTGTA---------GGGGGCAATAAGAAAGA CACAGGCAAAGGGACACTGGAAGATCAAATCATCCAGGCCAACCCTGCTCTGGAAGCTTTTGGCAATGCCAAAACACTGCGAAATGATAACTCCTCGCGTTTTGGCAAATTCATCCGTATTCATTTCGGAGCCAGTGGGAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTTGAAAAATCCCGTGTCACCTTTCAGCTCAAAGCAGAAAGAAACTACCACATATTTTACCAGATATTATCTAATCAAAAGCCCGAGCTGCTGGACATGCTTTTAATCACAAACAATCCGTACGACTACTCCTATGTGTCCCAAGGAGAAGTCACAGTTGCATCTATAGATGATGCTGAAGAACTGATCGCCACGGACAGTGCCTTTGATGTGCTTGGCTTCACCACAGAAGAAAAAATGGGGGTCTATAAACTAACAGGTGCCATCATGCATTATGGGAACATGAGGTTCAAGCAAAAGCAGCGTGAAGAGCAGGCAGAGCCCGATGGCAGTGAGTCTGCTGACAAGTCAGCATACCTGATGGGACTCAACTCAGCTGACCTCTTGAAAGGACTTTGCCACCCCAGGGTGAAAGTCGGCAATGAGTATGTAACCAAGGGGCAAAGTGTTGAACAGGTTTACTATAAAGCTGTCCGCTTCTCCTTCACCATCATGTCTATTTCCGCCCACAGCGAAGATGGGAAAAAT---------------------GTCAAGATCTTCCAGGAGCTCAAACCT AACTCAGAGCTCTGCTGCAAGCCCCTGTGCCTTATGTTCGCGGACGAATCTGACCATGAAACGCTGACTGCTATATTGGGGCCTGTAGTGGCTGAGCGGGAAGCCATGAAAGAAAGCCGCTTGATCCTTTCAATTGGGGGCATGCTGAGGTCCTTCCGGTTTGTGTTTAGGGGCACAGGCTATGATGAGAAATTGGTCAGAGATGTGGAAGGACTTGAGGCTTCAGGGTCTACTTACATCTGCACCCTTTGTGATTCCACCAGAGCAGAAGCTTCTCAGAATATGGTGCTGCACACAATCACCAGGAGCCACGAGGAGAACCTAGAACGCTATGAGATCTGGAGGACCAACCCATACTCAGAGTCGGCCGATGAGCTGCGTGATCGGGTCAAAGGGGTTTCAGCAAAACCGTTCTTGGAAACGTTGCCCTCCATCGATGCGCTGCACTGTGACATCGGGAATGCCACCGAGTTTTACAAGATCTTCCAGGATGAAATTGGAGAGCTCTAC---------------ATCAAAAGCAACCCCACCC GGGAGGAACGGAAGCGGTGGCAGTCTGCCCTAGACAAGCAGCTGAGGAAGAAGATGAACCTTAAGCCCATCATGAGAATGAATGGCAATTTTGCCCGCAAACTGATGACCAAGGAGACGGTGGATGCTGTGTGTGAGCTGGTTCCTTCTGAGGAGCGCCGAGAAGCTCTCAAGGAGCTGATGAATCTCTACCTCCAAATGAAAGGCGAAGTCACCGACAGAGAAGTGGGGTTGGGGATAAATCCGTTTGCTGATGGGATGGGCGCTTTTAAAATCAACCACAGTACC------------CACGAT------CTAGCT---TCT------GGC---CAAAC GGCTTTTTCG---TCCCAAGCGCCT---GGT---TAT------------GCGGCCGCAGCTCTGGGG------------CATCATCACCACCCCTCC------CATGTAAGCTCC---TATTCCACCGCGGCT---------TTCAATTCTACACGGGACTTTCTCTTTCGAAATCGGGGTTTCGGAGAAGCGGCC---AGCGC T---CAGCACAGCCTCTTTGCGTCTGCAGCA------GGAAGTTTTGCG---GGGCCACATGGACACA CAGATGCCACA---GGACACTTACTTTTCCCCGGACTTCACGAGCAGGCGACCACTCAC------GGG TCTCCCAATGTTGTAAAT---AGCCAGATGCGCTTG---GGCTTT---TCTGGGGACATGTACGGCAG AGCCGAG------CAATACAGCCAGGTAACAAGCCCCAGA------TCAGAT---CACTATGCGTCGA CCCAGTTACACAGTTATGGCCCT---ATGAACATGAACATGGCTGCA------CACCAT---GGG---GCAGGGGCCTTTTTTCGGTATATGAGGCAACCTATAAAACAAGAACTTATCTGCAAATGGATTGAACCGGAGCAGTTGAGTAACCCGAAAAAGTCTTGTAATAAAACTTTTAGCACAATGCATGAGCTCGTCACTCACCTCACAGTGGAGCATGTGGGGGGACCAGAACAGTCGAATCATATCTGTTTCTGGGAAGAGTGTTCCAGGGAAGGGAAACCGTTTAAAGCCAAGTACAAACTGGTAAATCACATCCGAGTGCACACAGGCGAGATGGTCGGCACGGCCCTGAGTCTCCTAATTCGAGCAGAACTAAGTCAACCAGGAGCCTTGCTAGGTGACGACCAGATCTATAATGTAATTGTTACAGCACATGCCTTTGTAATAATTTTCTTTATAGTAATGCCCGTTATAATTGGTGGGTTTGGCAACTGGCTAGTCCCCCTAATAATTGGAGCCCCGGACATAGCTTTCCCCCGAATAAACAACATGAGCTTCTGACTGCTGCCCCCATCCTTCCTACTTCTTCTTGCCTCCTCAGGCGTAGAAGCGGGAGCCGGGACCGGCTGAACTGTATACCCCCCTCTGGCAAGCAACCTTGCACACGCAGGCGCATCAGTAGATTTAACCATCTTCTCCCTACACTTAGCTGGAGTTTCATCCATTCTTGGGGCAATTAACTTTATCACAACCATTATCAACATAAAACCCCCAGCAGCCTCTCAATACCAAACACCTCTGTTCGTATGATCCGTCCTAATTACTGCTGTTCTACTCCTCCTATCCCTGCCCGTCTTGGCCGCAGGCATCACAATGCTACTAACTGACCGAAATCTCAATACCACATTCTTTGACCCTGCCGGAGGGGGCGACCCCATCTTATACCAACACCTTTTCTGATTCTTCGGACACCCAGAAGTATACATTTTAATTCTCCCAGGGTTCGGAATAGTTTCCCATATTGTAGCATACTACGCAGGTAAAAAAGAACCATTCGGCTATATGGGAATAGTATGAGCCATAATGGCCATCGGCCTATTAGGATTCATCGTATGAGCTCACCACATGTTTACAGTTGGAATAGACGTGGACACTCGAGCTTAT
81
Hiodon alosoides ACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCTGCGGTC---------GGCGGAGGCAAACGGGA CACTAGTAAGGGGACGCTGGAGGACCAGATTATCCAGGCCAACCCGGCACTGGAGGCCTTTGGAAATGCCAAAACGCTGAGGAATGACAACTCATCTCGTTTTGGGAAATTCATCCGAATTCACTTTGGTACAAGTGGGAAGCTGTCATCTGCCGATATCGAGACTTACCTGCTGGAAAAGTCCCGGTGCACCTTTCAGCTCAAGGCTGAGAGGAACTACCACATCTTCTACCAGATCCTCTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCGTACGACTACTCCTACATCTCCCAGGGAGAGGTGACGGTGGCCTCCATCAATGACTCGGAGGAGCTGCTGGCCACCGACAGCGCCTTTGACGTGCTGGGCTTCACTCCGGAGGAGAAGATGGGTGTCTATAAACTCACCGGGGCCATTATGCACTACGGCAACATGAGGTTCAAACAGAAGCAGCGCGAGGAGCAGGCTGAGCCGGACGGGACCGAGGCCGCTGATAAAACAGCCTACTTGATGGGGCTGAACTCTGCCGACCTCATCAAGGGGTTGTGTCATCCCAGGGTGAAGGTCGGGAATGAATACGTAACCAAAGGTCAAAGTGTGGACCAAGTCTACTACAAGGCCGTGCGGTTCTCCATCACAGTAATGTCCGTCTCTGTCAGGACTGAGGACGGAGAGGAAGCT------------------CTCACCATCTTCCAGGAGACCAAGCCA AACTCTGAGCTATCCTGCAAGCCCCTCTGTCTAATGTTCGTGGATGAATCGGACCATGAGACGCTGACAGCTGTGCTGGGGCCTGTGGTGGCCGAGCGCAACGCCATGCGGGAGAGCAGGCTCATCCTGTCGATTGGGGGGCTGCCTCGCTCTTTCCGCTTTGTGTTCAGGGGCACCGGTTACGATGAGAAGATGGTGAGAGAGATGGAAGGCCTTGAGGCGTCCGGGTCCACGTACATCTGCACCCTGTGCGACTCCACCAGGGCAGAGGCCTCGACGAACATGGTGCTGCACTCTATCACCAGGAGCCATGATGAGAACCTGGAGCGCTACGAGATCTGGAGGACTAACCCCTTCTCCGAGCCTGTGGAGGAACTGCGGGACAGAGTCAAGGGCGTCTCGGCCAAGCCTTTCATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGCGACATTGGCAATGCCACCGAGTTCTACAAAATATTCCAAGATGAAATTGGTGAGGTCCAC---------------CGATACAGCAACCCCAGCC GGGATGAGAGGAGGCGCTGGCGCTCGATGCTTGACAAGCAACTGAGGAAGAAGCTGAAGCTGAAGCCCATCATGCGGATGAACGGCAACTTTGCCCGTCGTCTGATGACGCGGGAGGCAGTAGAGGCTGTGTGTGAGCTGGTGCCCTCGGAAGAGCGGAGGCAGGCCCTGACAGAGCTTATGGAGCTGTACCTGCAAATGAAGGGCGAAGTCACCGACAGAGAAGTTGCTTTGGGGATAAATCCGTTCGCTGATGGAATGGGCGCTTTTAAAATTAACCACGGTACC------------CACGAT------CTTGGT---TCT------GGG---CAAAC GGCATTTACT---TCGCAGGCGCCA---GGC---TAC------------GCCGCCGCTGCCCTGGGA------------CATCATCATCACCCCACC------CATGTCAGCTCC---TACTCAACAGCCGCT---------TTCAACTCAACCCGGGAATTCTTGTTTCGAAATAGGGGTTTTGGAGACGCAACG---AGCGC A---CAGCACAGTCTGTTCGCCTCCGCAGCA------GGCGGCTTTGCA---GGGCCACATGGACACT CAGATGCCACT---GGACACYTGCTCTTCCCGGGACTTCATGAGCAAGCCGCTRGTCAC------GCC ACATCCAATGTTGTAAAT---AGTCAAATGCGACTG---GGCTTT---TCGGGAGAAATGTACGGCAG GCCAGAG------CAGTACGGCCATGTAACGAGTCCCAGG------TCCGAT---CACTATACTTCTA CCCAGTTACANAGCTMTGGTCCC---ATGAACATGAATAKGGCTGCT------CACCAT---GGG---GCAGGGGCCTTCTTTCGGTACATGAGACAACCGATAAAACAAGAGYTCATCTGCAAATGGGTTGAACCGGAACAACTGACGAACCCGAAAAAGTCCTGCAACAAAACTTTTAGTACAATGCACGAACTAGTTACTCATCTCACAGTGGAACACGTTGGGGGACCTGAACAGTCGAATCATATYTGTTTTTGGGAAGAATGTCCAAGGGAAGGAAAACCTTTTAAAGCCAAGTACAAACTTGTAAACCATATNAGAGTACACACTGGCGAGATGGTCGGCACTGCCCTAAGCCTCTTAATTCGAGCAGAATTAAGCCAACCTGGGGCCCTACTAGGGGATGACCAAATTTACAATGTAATCGTTACAGCACACGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGTGGCTTCGGAAACTGACTAGTACCCCTAATGATTGGAGCCCCAGACATGGCCTTCCCGCGGATGAATAACATAAGCTTCTGACTTCTCCCCCCATCATTTCTTCTTCTTCTAGCCTCCTCTGGCGTAGAAGCAGGAGCCGGGACCGGATGAACTGTATACCCCCCACTAGCAGGTAACCTAGCACACGCCGGCGCATCTGTTGACCTAACTATCTTTTCACTCCATTTAGCTGGGGTTTCTTCAATTCTTGGGGCAATTAACTTTATTACCACAATTATTAATATAAAACCCCCCGCCATCTCACAGTATCAGACACCACTATTTGTATGAGCCGTACTAATTACCGCAGTCCTTCTGCTTCTCTCACTCCCCGTGCTAGCCGCTGGCATTACAATACTTCTTACAGACCGAAACCTAAACACAACCTTTTTCGACCCAGCAGGAGGAGGTGACCCCATCCTATACCAACACTTATTCTGATTCTTCGGACACCCAGAAGTCTATATTTTAATTCTACCCGGATTTGGAATGATTTCACACATTGTTGCCTACTATGCTGGTAAAAAAGAACCATTCGGGTATATAGGCATGGTCTGAGCTATAATAGCCATCGGACTGCTAGGATTTATTGTATGAGCCCACCACATATTTACAGTGGGGATGGATGTCGACACTCGTGCCTAC
82
Chitala chitala ACCAAAAGAGTCATCCAGTACTTTGCAAGCATTGCTGCTGTG------GGCGGAGTAGGGAAGAAGGA CACAAGCAAGGGCACACTGGAGGACCAGATCATTCAAGCTAACCCAGCCCTTGAAGCTTTCGGCAACGCTAAAACTCTACGAAATGACAACTCGTCACGTTTCGGAAAATTCATCCGCATTCACTTTGGAGTGAGCGGAAAACTGTCCTCCGCTGACATTGAGACGTACCTGCTGGAGAAATCTCGTGTCACCTTCCAGCTCAAAGCGGAGAGGAACTACCACATATTCTATCAAATTTTGTCCAACAAAAAGCCAGAGCTGCTGGACATGTTGTTGATTACCACCAACCCTTATGACTACGCCTACATCTCCCAAGGAGAAGTAGCGGTTGCGTCCATCGATGACTCAGAAGAGCTGGTAGCTACTGACAGTGCGTTTGACGTGCTGGGCTTCACTGCAGAGGAGAAGATGAGCGTGTACAAGCTCACAGGTGCAATCATGCACTATGGAAACATGAAGTTCAAACAGAAGCAGCGCGAGGAACAAGCTGAGCCTGACGGCACAGAATCAGCTGACAAGTCGGCCTACCTTATGGGATTAAATTCAGCTGACCTGCTGAAGGGCCTGTGCCATCCTAGAGTCAAGGTTGGTAATGAATTTGTCACAAAAGGTCAAAATGTGCCACAAGTTTATTACAAGGCAGTTCGGTTCTCCTTCACGGTCATGACAATTTCTGTTCGGCCTGAGGGTCAAGAGGAAGCA------------------ATTATCATCTTCCAGGAGACCAAGCCA AATTCAGAGCTCTCCTGCAAACCACTTTGCCTGATGTTTGTGGATGAGTCAGACCATGAGACCTTGACTGCAGTTCTGGGTCCTGTGATTGCAGAGAGGAACTCCATGAAGGAGAGCCGGCTCATCCTGTCCATCGGAGGCATGCCTCGCTCCTTCCGCTTCTTCTTCCGTGGCACTGGCTATGATGAGAAGATGGTGAGAGAAATGGAGGGCCTGGAGGCCTCGGGATCCACCTACATTTGCACCCTGTGTGATTCCACCAGGGCGGAGGCCTCAAAGAATATGGTGCTGCACTCCATCACCCGAAGCCACGAGGAGAACTTGGAGCGCTACGAGGTTTGGAGGACCAACCCGTTTTCCGAGTCTGTGGACGAGCTCCGTGAGCGAGTCAAAGGAGTGTCGGCGAAGCCCTTCATGGAGACGCAGCCAACGCTGGACGCGTTGCATTGCGACATTGGAAATGCCACAGAGTTCTACAAGATCTTCCAGGACGAAATCGGGGAAGTCTAC---------------TTGAAACCTAATCCTAGCC GAGACGAGAGAAGACGCTGGCGCTCAGCGCTGGACAAGCAGCTGAGGAAGGAGCTGAAGCTAAAGCCTGTCATGCGCATGAATGGCAACTATGCTCGCCGGCTCATGACCCGTGAAGCTGTGGAAGCCGTGTGTGAACTGGTGCCTACTCCAGAAAGGAGGGAAGCCCTGAAGGAGCTCATGGAGATCTACCTCCAGATGAAGAGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTTGCCGACGGGATGGGTGCTTTTAAAATCAACCACAGTACC------------CACGAT------TTGGGG---ACT------GGT---CAAAC AGCGTTCACC---TCGCAGGCTCCG---GGC---TAT------------GCGGCTGCAGCCCTGGGA------------CATCATCACCATCCTACC------CATGTCAGCTCC---TATTCCACGGCGGCT---------TTCAACTCTACCCGGGACTTTCTGTTTCGAAACAGGGGGTTTGGAGATGCGGCG---ACTGC T---CAGCACAGTCTTTTTGCCACCGCAGCA------GGAGGCTTCGCA---GGGCCACACGGACACT CAGATGCTGCG---GGACATCTTCTTTTCCCGGGACTTCACGAACAAGCGGCCACCCAC------GCC ACTTCCAATGTTGTAAAC---AGTCAGATGCGACTG---GGATTT---TCGGGGGAAATGTATGGCAG AGCAGAG------CAGTACGGCCACGTAACGAGCCCCAGG------TCCGAT---CACTATGCGTCTA CCCAGTTACACGGCTATGGCCCC---ATGAACATGAATATGGCAGCA------CACCAC---GGA---GCCGGGGCCTTCTTTCGCTATATGAGGCAGCCGATAAAACAAGAGCTTATTTGCAAATGGATTGAACCGGAACAGCTAACGAACCCGAAAAAGTCATGCAACAAAACTTTCAGCACAATGCACGAGCTTGTGACTCACCTTACAGTGGAACATGTTGGGGGACCAGAACAATCGAATCACATATGCTTTTGGGAAGAGTGTCCCCGGGAAGGAAAACCGTTTAAAGCGAAGTACAAGCTTGTGAATCACATCAGAGTACACACTGGCGAGNNNNNNNNNNNNNNNNNNAGCCTGTTAATCCGAGCAGAACTAAGCCAACCCGGCTCACTACTTGGTGACGACCAAATCTATAAWGTTATCGTTACAGCACACGCATTCGTAATAATCTTCTTCATGGTAATGCCTATTATAATTGGAGGCTTTGGAAACTGGCTAATCCCCTTAATAATTGGAGCCCCAGATATAGCATTCCCCCGAATAAACAATATAAGCTTTTGACTCCTGCCCCCTTCATTCCTACTACTCCTGGCCTCGTCCGGAGTAGAAGCCGGTGCCGGGACCGGATGAACAGTATACCCACCTCTAGCAGGAAACTTAGCACACGCCGGTGCCTCTGTAGACCTTACAATTTTTTCACTCCATCTTGCTGGCGTCTCCTCAATTCTAGGAGCCATTAACTTTATTACAACAGTATTTAATATAAAACCCCCTGCCGTCTCACAATACCAAACACCACTATTCATCTGAGCTGTAATGATCACTGCAGTTTTACTCTTACTATCTCTTCCAGTTCTAGCTGCCGGTATTACAATACTACTCACAGACCGCAACCTTAACACAACATTCTTTGACCCGGCAGGCGGAGGAGACCCAATTCTTTACCAACATCTATTTTGATTCTTTGGCCACCCAGAAGTATACATCTTAATTCTCCCAGGTTTCGGTATAATTTCTCACATTGTCGCCTACTATTCTGGTAAGAAAGAACCATTCGGCTACATAGGCATGGTCTGAGCTATAATGGCCATCGGGCTGCTAGGCTTTATTGTATGAGCCCACCATATATTTACAGTAGGAATAGATNNNNNNNNNNNNNNNNNN
83
Gnathonemus petersi NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN------???NNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGGCTGTGCGATTCTCCTTCACAGTGATGTCAGTCTCCGTCCAGGTAGAGGGACGTCAGGAAGCG------------------ATCACCATCTTTCAGGAATTAAAGCCG AATTCGGAGCTGTCCTGCAAGCCGCTCTGTCTCATGTTTGTAGACGAGTCGGACCACGAGACCCTCACTGCTGTACTGGGGCCTGTGGTGGCCGAGCGAAATGCCATGAAGGAGAGTCGGCTCATCCTGTCCATCGGAGGGCTTCCTCGTTTCTTCCAGTTCCAGTTCCGGGGCACAGGTTACGACGAGAAGATGGTGAGAGAGATGGAGGGCCTTGAGGCTTCTGGGTCCACGTACATCTGCACCATGTGTGATTCCACTAGGATGGAGGCGTCAAAGAACATGGTTCTGCACTCTATTACAAGGAGCCACGAAGAGAACCTAGAGCGCTATGAAATCTGGCGGAGCAACCCCTTCTCAGAGTCTGTGGAGGAGCTTCGGGACCGGGTCAAGGGCGTCTCAGCTAAGCCTTTCATGGAGACCCAACCGACCCTGGATGCCCTGCACTGCGACATCGGCAATGCCACCGAATTCTATAAAATCTTCCAAGATGAAATCGGTGAGGTCTAC---------------CTGAAGGGCAACCCTAGTC GGGAGGAGAGGAGAAGCTGGAGGTCTGCTCTGGACAAACAGTTGAGAAAGAAGCTGAAGGTGAAACCTGTCATGCGGATGAATGGCAACTACGCCCGTCGGCTCATGACCCGGGAGGCGGTGGAAGCTGTGTGTGAGCTGGTGCCCTCAGAAGCCAGGAGGGAGGCTCTGAAGGAGGTCATGGAGCTTTACCTACAGATGAAGAGCGAAGTCACCGACAGAGAAGTGGCTTTGGGGATAAATCCGTTTGCCGAGGGGATGGGTGCTTTCAAGATCAACCACAGTACC------------CACGAT------TTAGGG---TCT------GGA---CAGAC GGCATTCACC---TCGCAGGCTTCG---GGA---TAT------------GCGGCTGCCGCTCTGGGA------------CATCACCACCACCCCGCC------CATGTCAGCTCA---TACTCTACGGCGGCG---------TTCAACTCCACCCGGGACTTTCTGTTTCGAAATCGGGGCTTCGGGGATGCGGCG---AGCGC T---CAGCACAGCCTCTTCGCCACCGCTGCA------GGCGGTTTCGCG---GGGCCGCACGGACACT CGGATGCCGCG---GGACATCTCCTTTTCCCGGGACTTCACGAGCAGGCGGCCACTCAC------GCG ACATCCAACGTCGTGAAC---AGCCAGATGCGCCTG---GGCTTT---TCCGGGGAAATGTACGGCAG AGCAGAG------CAGTATGGTCACGTAACGAGCCCCAGG------TCCGAC---CACTATGCTTCGA CCCAGCTGCACGGCTACGGCCCC---ATGAACATGAATATGGCTGCA------CATCAC---GGA---GCTGGGGCCTTCTTTCGATATATGAGACAACCGATAAAACAAGAGCTCATTTGCAAATGGATTGAGCCGGAGCAGCTATCGAATCCAAAAAAGTCTTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTCACCCACCTCACAGTGGAGCATGTTGGGGGGCCGGAGCAGTCGAACCATATCTGCTTTTGGGAAGAATGCGCCCGTGAAGGAAAGCCCTTTAAAGCCAAGTACAAACTTGTGAACNNNNNNNNNNNNNNNNNNNNNNNNATGGTAGGCACTGCACTAAGCCTACTCATCCGAGCGGAACTAAACCAACCTGGAGCCCTACTTGGGGATGACCAGATTTATAATGTTATCGTCACAGCACACGCCTTCGTAATAATTTTCTTCATGGTAATGCCCATTATGATCGGCGGCTTCGGCAACTGATTAATCCCCCTCATGCTCGGCGCTCCTGATATAGCATTCCCTCGAATGAACAACATAAGCTTCTGACTCCTGCCTCCATCGTTCCTTCTTCTACTGGCCTCTTCTGGCGTAGAAGCTGGGGTCGGTACGGGGTGAACCGTTTATCCACCGCTAGCCGGTAACCTTGCCCATGCTGGAGCCTCCGTAGACCTAGCCATTTTCTCCCTTCACCTGGCCGGGGTCTCTTCAATCCTTGGTTCAATTAACTTTATTACCACAATTATCAACATAAAACCCCCAGCAATTTCCCAATACCAAACCCCATTGTTTATTTGAGCCCTGCTAGTAACCACCGTGCTTCTGCTGCTGTCATTACCAGTCTTAGCTGCAGGAATTACGATATTACTGACAGATCGGAACCTAAACACAACATTCTTTGATCCGGCAGGCGGAGGAGACCCAATCCTCTACCAACACTTATTCTGATTCTTCGGACACCCCGAAGTATATATTCTAATTCTCCCAGGCTTCGGAATAATCTCTCACATTGTCGCCTACTACGCAGGGAAAAAGGAGCCCTTTGGATACATAGGAATAGTATGAGCAATGATAGCAATCGGCCTTCTAGGGTTCATCGTGTGAGCCCACCACATATTTACAGTAGGAATGGATGTCGACACCCGAGCCTAT
84
Elops saurus ACCAAAAGAGTGATTCAGTATTTTGCCAGCATTGCTGCTGCA---------GGTGGGGGAAAGAAGGA CACCAGCAAGGGAACACTGGAGGATCAAATCATCCAAGCCAACCCAGCGCTGGAGGCTTTTGGCAATGCAAAGACCGTAAGGAATGACAACTCCTCACGTTTCGGGAAATTCATCCGCATTCATTTTGGAGTGAGTGGTAAACTGTCCTCCGCTGACATCGAGACCTACCTGCTGGAGAAATCCCGAGTCACTTTTCAGCTCAAAGCTGAGAGGAACTATCATATCTTTTATCAGATTTTATCCAACAAGAAGCCAGAGTTGCTGGACATGTTGCTTATTACCAACAACCCATATGATTATGCTTACGTCTCCCAAGGAGAGGTAACGGTTGCATCAATTGATGATACTGAGGAGCTCATTGCCACAGACAGTGCCTTTGATGTGCTGGGATTCACGGCAGAGGAGAAGATGGGTGTCTACAAGCTGACAGGTGCCATCATGCACTATGGTAACATGAAGTTCAAGCAGAAACAGCGTGAGGAGCAGGCAGAGCCTGATGGTACTGAGTCTGCTGATAAGTCAGCCTACCTAATGGGGCTAAACTCAGCTGACCTTGTCAAAGGACTGTGCCACCCGAGAGTCAAAGTTGGCAATGAGTATGTCACCAAGGGCCAAAGTGTGGACCAAGTTTACTACAAGGCAGTGCGGTTCTCCTTCACCATCATGTCAATCTCGGTCCAGCTGGCGGACGGGGGCAAGCAG------------------GTGACCGTGTTCCAGGAGCCGAAACCC AACTCCGAGCTGAGCTGCAAGCCGCTGTGCCTGATGTTTGTTGACGAGTCAGACCACGAGACGCTAACCGCTGTGCTGTGGCCCGTGGTGGCCGAGCGGAACGCCATGAAGGAGAGCCGGCTCATCCTCTCCATCGGGGGGCTGCAGCGGTCCTTCCGCTTCCACTTCCGGGGCACGGGCTACGACGAGAAGATGGTGAGAGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACCTACATCTGCACGCTGTGTGACTCCACCAGGGCTGAGGCTTCCCAGAACATGGTCCTTCACTCCATCACCAGGAGCCACGATGAAAACCTGGAGCGGTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCTGCCGAGGAGCTACGTGACCGCGTCAAGGGCGTGTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCGCTGCACTGCGACATCGGCAACGCCACTGAGTTCTACAAGATCTTCCAGGACGAGATTGGTGAGGTTCAC---------------CTGAATGGCAACCCCAGCC GCGAGGAGCGCCGCCGCTGGAGGTCGGCCCTCGACAAGCAGCTGAGGAAGAGGATGAAGCTGAAGCCGGTGATGCGGATGAACGGGAACTACGCCCGCCGGCTCATGACCCGGGAGGCGGTGGAGGCAGTGTGTGAGCTGGTGCCATCGGAGGAGCGCAGGCAGGCCCTGAAGGAGCTGATGGAGCTCTACCTGCAGATGAAGGGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCCTTTGCTGATGGCATGGGCGCTTTTAAAATCAACCACAGCACC------------CACGAC------CTGGGC---TCT------GGA---CAAAC AGCCTTTTCC---TCGCAAGCACCA---GGC---TAC---------------GCCGCTGCCCTGGGA------------CACCACCACCACCCCACC------CATGTCAGCTCC---TATTCCACAGCGGCG---------TTCAATTCCACCCGGGACTTTCTGTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC A---CAGCACAGTCTTTTCGCCTCCGCAGCA------GGAAGTTTTGCA---GGGCCACATGGACACT CGGATGCCACG---GGGCACCTGCTTTTCCCGGGACTTCACGAGCAGGCAGCCACTCAC------GCG TCTTCCAATGTTCTAAAT---AGTCAGATGCGTTTG---GGCTTT---TCGGGGGACATGTATGGTAG AGCCGAG------CAGTACGGCCATGTAACTAGCCCCAGG------TCCGAT---CATTATGCTTCGA CCCAGTTGCACGGCTATGGCCCC---ATGAACATGAACATGGCTGCA------CACCAT---GGG---GCAGGGGCCTTCTTTCGTTACATGAGGCAACCGATAAAGCAGGAGCTCATCTGCAAATGGATCGAACCGGAACAATTGACGAACCCGAAAAAGTCTTGCAACAAAACTTTCAGTACCATGCACGAGCTGGTTACGCACCTCACAGTGGAGCATGTTGGGGGACCAGAACAATCGAATCACATCTGCTTCTGGGAAGAGTGTCCCCGGGAAGGAAAACCTTTTAAAGCCAAGTATAAACTTGTAAATCACATCAGAGTACATACCGGCGARATAGTCGGGACAGCACTAAGCCTCCTGATCCGAGCCGAATTAAGCCAACCCGGGGCGCTTCTGGGAGACGACCAGATTTATAATGTCATCGTCACAGCACACGCCTTTGTAATAATCTTCTTTATAGTAATGCCAATCATAATTGGTGGCTTTGGAAACTGACTGATCCCTCTCATGATCGGAGCCCCTGACATGGCGTTTCCCCGAATAAATAATATAAGCTTCTGACTTCTACCACCCTCTTTCCTGCTGTTGTTGGCCTCTTCTGGAGTGGAAGCAGGAGCGGGGACCGGATGAACCGTCTATCCGCCCCTGGCGGGAAACCTCGCCCACGCGGGAGCATCCGTCGACCTAACCATCTTCTCCCTCCACCTTGCAGGTGTGTCTTCTATCCTGGGTGCTATCAACTTTATTACTACAATTATTAACATGAAACCGCCAGCAATAACACAATACCAAACGCCACTATTCGTTTGAGCAGTACTGATCACCGCCGTTCTTCTCCTCCTATCGCTGCCAGTGCTAGCTGCTGGCATCACAATGCTGCTAACAGACCGAAACCTGAACACAACCTTCTTTGACCCGGCAGGCGGAGGAGACCCAATCCTTTACCAACACCTATTCTGGTTCTTCGGGCACCCAGAAGTATACATTCTAATTCTCCCAGGCTTCGGAATAATCTCACACATCGTAGCCTACTATGCAGGCAAAAAAGAACCATTCGGCTACATGGGCATAGTATGGGCAATGATGGCTATTGGTCTTCTTGGCTTTATCGTATGGGCACACCACATGTTCACGGTAGGAATGGATGTAGACACACGTGCCTAC
85
Megalops cyprinoides ACCAAGAGGGTCATTCAGTATTTTGCCAGCATCGCTGCTGCA---------GGCGGCGGCAAGAAGGA CACCAGCAAAGGAACRCTGGAGGATCAAATCATCCAAGCTAACCCCGCACTGGAAGCGTTTGGCAATGCCAAAACGGTGAGGAACGACAACTCCTCACGTTTCGGGAAATTTATCCGCATCCATTTCGGAGTGAGTGGCAAACTGTCCTCAGCCGACATTGAAACCTACTTGCTGGAGAAATCTCGTGTCACCTTTCAGCTCAAGGCTGAGAGGAACTATCACATCTTTTACCAGATTTTGTCCAACARGAAGCCAGAGCTGCTGGACATGCTGTTGATCACCAACAACCCKTATGATTACGCTTACGTCTCCCAAGGAGAGGTTTCGGTTGCTTCAATCGACGACACTGAGGAGCTGATCGCCACAGACAGCGCCTTTGATGTGCTGGGCTTTACAGCAGAGGAGAAGATGGGAGTCTACAAGCTGACRGGTGCCATCATGCACTACGGTAACATGAAGTTCAAGCAGAAACAACGGGAGGAACAGGCAGAGCCTGATGGCACTGAGTCTGCTGACAAGTCAGCCTACCTAATGGGGCTAAACTCAGCCGACCTCGTCAAAGGCCTGTGCCATCCGCGAGTTAAAGTTGGCAATGAGTATGTCACCAAAGGCCAGAGTGTGGACCAAGTCTACTACAAAGCAGTGCGGTTCTCCTTTACGGTGATGTCAGTGTCCATCCAGCTTGAAGGCAGGGGTGAGCAG------------------ATCACAGTGTTCCGGGAGATGAAGCCT AACTCTGAGCTGAGCTGTAAGCCACTGTGCCTGATGTTCGTTGATGAGTCAGACCATGAAACACTGACTGCCGTGCTGGGGCCTGTGGTGGCAGAGAGGAATGCTATGAAGGAGAGCCGGCTCATCCTGTCCATTGGAGGGCTCCCACGCTCCTTCCGCTTCCACTTCCGAGGCACGGGCTATGATGAGAAGATGGTGAGGGAGATGGAGGGCCTGGAAGCTTCAGGATCCACCTACATCTGTACCCTGTGTGACTCTACAAGGGCTGAAGCCTCCCAGAACATGGTGCTGCACTCCATCACCAGGAGCCATGACGAGAACCTGGAGCGCTATGAGATCTGGAGAACAAATCCCTACTCTGAGTCTGCCGAGGAGCTGCGTGACCGGGTCAAAGGTGTCTCAGCCAAGCCCTTCATGGAGACCCAGCCTACACTGGATGCACTGCACTGTGATATTGGCAATGCCACTGAGTTCTATAAGATCTTCCAGGACGAGATTGGTGAGGTCCAC---------------ATGAATAGCAATCCCAGCC GCGAGGAGAGACGATGCTGGAGGTCTGCTCTCGACAAGCAGCTCAGGAAGAAGCTGAAGTTGAAGCCAGTGATGCGGATGAATGGGAACTATGCCCGGCGCCTGATGACCCGAGAGGCAGTGGACGCAGTATGTGAGCTGGTGCCCTCCGATGAGCGTAGACANGCCTTGAAGGAGCTGATGGAGCTCTACCTGCAGATGAAGGGCGAAGTCACAGATAGAGAAGTGGCTTTGGGGATAAATCCCTTTGCTGATGGGATGGGCGCTTTTAAAATCAACCACAGCACC------------CACGAC------TTGGGC---TCT------GGA---CAAAC AGCGTTTTCC---TCCCAAGCGCCA---GGC---TAT---------------GCCGCTGCCCTGGGA------------CACCACCACCACCCCACA------CATGTCAGTTCC---TATTCCACGGCGGCG---------TTCAATTCCACCCGGGACTTTCTGTTCCGAAATCGGGGCTTCGGAGACGCCACG---AGCGC G---CAGCACAGTCTTTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CGGATGCCACT---GGGCACCTGCTTTTCCCGGGACTTCATGAGCAAGCGGCCACTCAC------GCG TCTTCCAATGTTGTAAAT---AGTCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAT------CAGTACGGCCATGTAACCAGCCCCAGA------TCTGAT---CATTACGCCTCGA CCCAGCTGCACGGCTATGGCCCC---ATGAACATGAATATGGCTGCG------CACCAT---GGG---GCAGGGGCCTTCTTTCGGTACATGAGGCAACCGATAAAGCAGGAACTTATCTGCAAATGGATCGAGCCGGAGCAATTGACGAACCCCAAAAAGTCCTGCAACAAAACTTTCAGTACCATGCACGAGCTGGTTACGCACCTCATAGTGGAGCATGTTGGTGGACCAGAACAATCGAATCATATCTGCTTTTGGGAAGAGTGTCCCCGGGAAGGAAAGCCGTTTAAAGCGAAGTACAAACTTGTAAATCACATCAGAGTACACACCGGCGAGATAGTTGGAACAGCACTAAGTTTGCTAATTCGGGCTGAACTAAGCCAACCCGGAGCACTACTTGGTGATGACCAAATCTATAATGTTATCGTCACGGCACATGCCTTCGTAATAATTTTCTTTATAGTAATGCCTATTTTAATTGGCGGATTTGGAAACTGACTGGTTCCACTCATGATCGGAGCCCCCGACATAGCATTTCCCCGCATAAATAACATGAGCTTTTGGCTCCTTCCACCATCATTCCTACTCCTACTGGCCTCTTCAGGAGTTGAAGCAGGAGCAGGAACCGGGTGGACAGTCTACCCCCCTCTTGCCGGAAACCTGGCCCACGCAGGCGCATCCGTAGATCTTACTATTTTTTCCCTTCATCTGGCAGGAGTTTCTTCAATTTTAGGCGCTATTAACTTCATTACTACAATTATTAATATAAAACCACCCGCCATATCACAGTACCAAACACCACTATTTGTTTGATCAGTCTTAGTTACTGCAGTACTTCTCCTACTATCCCTACCAGTCCTAGCGGCGGGAATCACTATACTTCTTACAGACCGCAACTTAAATACAACATTTTTCGATCCGGCAGGAGGAGGAGACCCAATCCTGTACCAACACCTATTCTGATTCTTCGGACACCCAGAAGTCTATATCCTGATCCTACCAGGATTTGGTATAATCTCCCATATTGTAGCCTATTACGCCGGCAAAAAAGAACCTTTCGGATACATGGGCATGGTTTGAGCAATAATAGCCATCGGTTTGCTAGGGTTCATTGTATGGGCACACCACATATTTACAGTAGGAATAGACGTGGACACCCGTGCCTAT
86
Albula vulpes ACTAAGAGAGTCATCCAGTACTTTGCTAGCATTGCTGCAGTG------GGTGGTGGAGGCAAAAAAGA CACCAGCAAGGGGACACTGGAGGATCAAATCATCCAGGCGAACCCTGCACTAGAGGCCTTCGGCAATGCCAAAACTCTGAGAAATGACAACTCATCTCGTTTTGGAAAATTCATTCGAATCCACTTCGGTCCAAGTGGCAAACTGTCATCTGCTGACATCGAGACGTATCTGCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCCGAGAGGAACTACCACATCTTCTACCAGATCCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACAAACAACCCATACGATTACTCCTACATCTCACAGGGAGAGGTAACCGTTGCCTCCATCAATGATTCAGAGGAGCTGATGGCCACCGACAGTGCCTTTGATGTGCTTGGCTTCACTCCAGAGGAGAAGATGGGTGTCTATAAACTGACCGGTGCCATCATGCACTATGGCAACATGAAGTTCAAACAGAAGCAGCGCGAGGAGCAGGCTGAACCTGATGGGACTGAGGCTGCTGATAAATCAGCTTACCTGATGGGGCTGAACTCCGCTGACCTCATCAAAGGCCTGTGCCACCCCAGAGTCAAGGTAGGAAATGAATATGTCACCAAAGGCCAAAGTGTTGACCAAGTCTACTACAAGGCAGTGAGGTTCTCCTTCACCGTGATGTCGGTGTCTGTCAGGCCTGAGGGGGGTGAAGGGGAA------------------GTGACTCTCTTCTGCGAACCCAAGCCA AACTCAGAGCTCAGCTGCAAGCCGCTGTGCCTGATGTTTGTGGATGAGTCTGACCACGAGACGCTGACTGCCATTTTGGGGCCTGTAGTGGCTGAACGCAACGCCATGAAAGAAAGCAGGCTCATTCTGTCTGTCGGTGGCCTGCTGCGATCTTTCCGCTTCCACTTCCGGGGCACGGGGTACGATGAGAAGATGGTGCGAGAGATGGAGGGCCTGGAGGCCTCAGGGTCGACCTACATCTGCACCCTGTGCGACTCCACCCGCACCCAGGCCTCCCAGAACATGGTGCTGCACTCGGTCACCCGGAGCCATGAGGAGAACGGTGAGCGCTACGAGGTCTGGCGCACCAACCCATATTCAGAATCTGCCGACGAACTCCGTGACCGTGTCAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCTTACCCACTATCGACGCCCTCCACTGCGACATCGGCAACGCTGCCGAGTTCTACAAGCTGTTCCAGGATGAAATTGGAGAGGTCCACCTGACCTTCGGTGGAGCCGGCGAAGCCCCTAGCCGCGAGGAGCGAAAACGATGGAGGTCTGCTCTTGACAAGCAGCTGAGGAAGAAGTTAAAGCTGAAGCCAGTGATGAGGATGAACGGGAACTATGCCCGACGGCTTATGACCCGGGAGGCGGTGGAGGCAGTTTGCGAGCTCGTGCCCTCTGAGGAGCGGAGGCAGGCCCTGAGGGAGCTGATGGGGCTCTACCTGCAGATGAAAGGAGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCCTTTGCTGATGGGATGGGCGCTTTTAAAATCAACCACAGCACC------------CACGAC------CTGGGC---TCT------GGA---CAAAC GGCATTTTCT---TCGCAAGCACCA---GGC---TAC---------------GCCGCTGCCCTGGGA------------CACCATCACCACCCCACT------CATGTCAGCTCC---TATTCCACCGCGGCT---------TTCAATTCCACTCGGGACTTTCTGTTTCGAAACCGGGGCTTTGGAGACGCGACG---AGTGC A---CAGCACAGCCTGTTCGCCTCCGCAGCA------GGAAGTTTTGCA---GGGCCACATGGACACT CGGATGCCACC---GGGCACCTGCTTTTTCCGGGACTTCATGAGCAAGCGGCTACTCAC------GCG TCTTCCAATGTTGTAAAT---AGTCAGATGCGTCTG---GGCTTT---TCGGGGGACATGTACGGTCG AGCCGAG------CAGTATGGCCATGTAACCAGCCCCAGG------TCTGAT---CATTACGCTTCGA CCCAGTTGCACGGATATGGCCCT---ATGAACATGAACATGGCTGCA------CACCAT---GGG---GCTGGGGCCTTCTTTCGGTACATGAGGCAACCGATCAAGCAGGAACTTATCTGCAAATGGATCGAACCGGAACAGTTGACAAACCCGAAAAAGTCCTGCAACAAAACTTTCAGTACCATGCACGAGCTCGTTACACACCTCACAGTGGAACATGTCGGAGGACCAGAACAATCGAATCATATCTGCTTTTGGGAAGAGTGTCCGAGGGAAGGGAAACCTTTCAAAGCAAAGTACAAACTTGTAAATCACATTAGAGTACACACCGGCGAAATAGTAGGTACAGCTTTAAGCCTACTTATTCGAGCGGAGCTTAGTCAACCCGGCGCCCTCCTAGGAGATGACCAAATTTACAATGTAATCGTTACAGCCCATGCCTTCGTAATGATTTTCTTTATAGTAATACCAATTATGATTGGAGGCTTTGGAAACTGACTTATTCCACTAATGATTGGAGCTCCAGATATGGCATTCCCTCGAATGAATAACATGAGCTTCTGACTCCTCCCTCCCTCTTTTCTTCTCCTTCTTGCCTCCTCAGGAGTAGAAGCAGGTGCCGGAACCGGTTGAACAGTCTATCCCCCCTTAGCTGGTAATCTTGCCCATGCAGGAGCATCCGTTGATTTAACCATTTTCTCCCTTCACCTAGCTGGAATTTCATCAATTCTAGGGGCTATCAACTTCATTACGACAGTAATCAACATAAAACCCCATGCTGTCTCTATATACCAGATCCCACTATTTGTCTGAGCCGTTCTAATTACAGCCGTCCTCCTGCTTCTCTCACTACCTGTTTTAGCCGCTGGCATTACAATACTTCTTACTGATCGAAACCTAAACACTGCCTTCTTTGACCCAGCCGGAGGAGGAGATCCCATCCTATACCAACACCTTTTCTGATTCTTCGGACATCCAGAAGTATACATTTTAATTCTTCCAGGTTTCGGTATGATCTCACATATTGTTGCCTACTACTCTGGTAAAAAAGAACCTTTCGGGTACATAGGAATGGTATGAGCCATGATAGCAATCGGCCTACTTGGCTTTATTGTCTGAGCCCATCATATGTTCACAGTAGGAATAGATGTCGACACTCGTGCCTAY
87
Halosaurposis macrochir ACCAAGAGGGTAATTCAGTATTTTGCCAGCATTGCTGCTGCA---------GGAGGGGGAAAGAAGGA TACCAGCAAGGGCACACTGGAGGATCAAATCATCCAGGCTAACCCAGCGCTGGAGGCTTTCGGCAATGCTAAGACTGCGAGGAACGATAACTCCTCGCGTTTTGGGAAATTCATCCGCATTCATTTTGGAGTAAGTGGTAAGCTTTCCTCTGCTGACATCGAAACTTACCTGCTTGAGAAATCTCGTGTCACCTTTCAGCTCAAAGCCGAGAGGAACTATCACATCTTTTACCAGATTATGTCCAACAAAAAGCCTGAATTGCTGGACATGATGTTGATTACTAACAACCCATACGATTATGCTTACGTCTCCCAAGGAGAGGTGACAGTCGCGTCAATCGATGACTCAGAGGAACTGATCGCCACAGACAGTGCCTTTGATGTGCTGGGATTCACAGCTGAGGAGAAGATGGGTGTCTACAAGCTGACAGGTGCTATCATGCACTATGGAAATATGAAATTCAAGCAGAGGCAGCGTGAGGAGCAGGCTGAGCCTGATGGCACTGAGTCTGCTGACAAGTCAGCCTACCTGATGGGGTTGAACTCAGCCGACCTTCTCAAAGGACTTTGCCACCCAAGGGTTAAAGTGGGGAATGAGTATGTCACAAAGGGCCAAAGTGTGGATCAGGTTTACTATAAGGCTGTGCGTTTCTCTATCACTGTCATGTCTGTCTCTGTCCAGGCCTACGGAGAGGAGGAGGCG------------------GTTGTCATCTTCAGGGAGCCAAAACCC AACTCTGAACTGTCCTGTAAGCCCCTGTGCCTGATGTTTGTGGATGAGTCTGACCACGAGACACTCACTGCTGTCCTTGGGCCTTTGGTAGCAGAGAGGAATGCAATGAAGCAGAGCCGACTCATTCTTTCAGTAGGTGGCCTCCCTCGCTCTTTCCGCTTCCACTTCAGAGGCACAGGCTATGATGAGAAGATGGTGCGAGAGATGGAAGGCCTGGAGGCCTCAGGCTCCACCTATATCTGCACTCTTTGTGACTCCACTCGGGCAGAAGCCTCTCACAACATGGTGCTCCACTCTGTCACCCGCAGCCATGATGAGAACCTGGAGCGCTACGAGATATGGAAGACCAACCCCTTCTCAGAGTCTGCCATGGAGCTGCGAGACCGGGTCAAAGGGGTCTCTGCCAAACCATTTATGGAGACCCACCCGACTCTGGATGCATTACACTGTGACATAGGCAACGCCACTGAATTCTACAAAATCTTCCAGGATGAGATTGGGGAGGTGTTC---------------CGGAGGGCCAACCCTAGCC GGGAGGAACGGCGCAGCTGGAGGGCAGCTCTCGATAAGCAGCTGAGGAAGAAGTTGAAGCTGAGACCAGTGATGCGGATGAATGGGAACTATGCCCGAAAGCTGATGACCCAGGAGGCTGTGGAAGTGGTGTGTGAACTGATTCCCACTGAAGAGAGGCGGGAGGCCCTGAGAGAGCTGATGGGGCTCTATATCCAGATGAAGGGAGAAGTCACAGACAGAGATGTGGCTTTGGGGATAAATCCCTTCGCCGATGGGATGGGCGCTTTTAAAATCAACCACAGCACC------------CACGAC------CTGGGC---TCT------GGA---CAAAC GGCGTTCTCC---TCGCAAGCGCCG---GGC---TAC---------------GCCGCTGCCCTGGGA------------CACCATCACCACCCCACC------CATGTCAGCTCC---TACTCCACCGCGGCG---------TTCAATTCCACCCGGGACTTTCTGTTTCGAAATCGGGGCTTCGGAGACGCGACG---AGCGC G---CAGCACAGCCTGTTCGCCTCTGCAGCT------GGAAGTTTTGCG---GGACCACATGGACACT CGGATGCCACT---GGGCACCTGCTTTTCCCGGGACTTCACGAGCAAGCGGCCACTCAC------GCG TCTTCCAATGTTGTGAAC---GGTCAGATGCGCCTG---GGCTTT---TCGGGTGACATGTACGGAAG AGCCGAG------CAGTACGGCCATGTGACGAGCCCCAGG------TCCGAT---CATTACGCTTCGA CCCAGTTGCACGGATATGGCCCC---ATGAACATGAACATGGCCGCA------CACCAT---GGG---GCAGGGGCCTTCTTTCGGTACATGAGGCAACCGATCAAGCAGGAACTTATCTGCAAATGGATCGAACCGGAACAATTGACAAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGCTCGTGACACACCTCACAGTGGAACATGTCGGGGGACCAGAACAATCGAATCACGTCTGCTTTTGGGAAGAGTGTCCGAGGGAAGGGAAACCTTTTAAAGCCAAGTACAAACTTGTAAATCACATCAGAGTACACACCGGTGAGATGGTGGGGACAGCTCTAAGCCTTCTTATTCGAGCAGAGCTAAGTCAACCCGGAGCCCTTCTAGGAGATGACCAAATTTATAATGTTATCGTTACAGCACACGCCTTCGTAATGATTTTCTTCATGGTAATACCCGTTATAATTGGAGGCTTTGGAAACTGACTAGTTCCCTTAATAATTGGAGCCCCCGATATGGCATTCCCACGAATAAATAACATAAGCTTTTGACTTCTGCCCCCCTCACTCCTCCTTCTATTATCCTCTTCTGGAGTTGAAGCAGGAGCAGGGACAGGATGAACAGTCTACCCCCCGCTTGCTGCTAATCTAGCCCATGCCGGAGCATCCGTAGACCTAACTATCTTCTCACTCCACCTAGCAGGCGTTTCATCAATTCTCGGAGCCATTAACTTTATTACCACAATTATTAACATAAAACCCCCAGCCATCTCACAATACCAAACCCCACTTTTCGTGTGATCAGTGCTTGTTACTGCAGTACTGCTACTACTATCTCTGCCAGTCTTAGCCGCAGGAATCACTATACTACTTACAGACCGAAATCTAAACACAACTTTCTTTGATCCAGCAGGAGGAGGAGACCCAATCCTTTACCAACACCTATTCTGATTCTTTGGTCACCCGGAAGTATATATTCTTATTCTCCCCGGATTTGGGATAGTCTCACACATCGTTGCGTACTATGCCGGTAAAAAAGAACCATTTGGCTATATAGGAATAGTTTGAGCCATGATGGCCATTGGCCTTCTTGGGTTCATTGTCTGAGCTCACCACATGTTTACAGTAGGCATAGACGTAGACACACGAGCCTAT
88
Notacanthus chemnitzii ACCAAGAGAGTCATCCAGTATTTTGCCAGCATTGCTGCAGTT---------GGTGGTGGAAAAAGAGA TACAAGCAAGGGAACCCTGGAGGATCAAATCATTCAGGCAAACCCTGCGCTGGAGGCTTTTGGTAATGCCAAAACATCGAGGAACGATAATTCTTCCCGTTTTGGAAAATTCATCCGAATTCACTTTGGAACCAGCGGTAAACTGTCCTCTGCGGACATTGAGACCTACCTGCTGGAGAAGTCCCGGGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAACCCTTATGACTACTCCTTCATCTCCCAAGGAGAAGTAACCGTACCATCCATCAATGATTCAGAGGAGCTGATGGCCACTGACAGTGCCTTTGACGTGCTTGGCTTCACTCAAGAGGAGAAGATGGGAATCTACAAGTTGATTGGGGCCATTATGCACTATGGCAACATGAGGTTCAAGCTAAAGCAGCGAGAGGAACAGGCTGAGCCTGATGGTACAGAGGCTGCTGATAAGTCAGCTTATCTCATGGGGCTGAATTCAGCAGACCTCATCAAAGGACTCTGCCATCCCAGAGTCAAGGTAGGAAATGAGTATGTCACCAAAGGCCAGAGTGTAGATCAAGTCTACTACNNNGCGGTGCGGTTCTCTTTCACCGTGATGTCGGTGTCGGTCCGGCCGGAGGGCTCGGATGAGGAT------------------GTGATTGTCTTCCGGGAGCCTAAGCCC AACTCGGAGCTGAGCTGCAAGCCGCTGTGTCTGATGTTCGTCGACGAGTCCGACCACGAGACGCTCACCGCTGTCCTGGGGCCCCTGAAGGCCGAGCGTGACGCCATGAAAGAGAGCCGGCTCATCCTGCCCGTCGGCGGCCTGTCGCGGTCCTTTCGCTTCCAATTCCGGGGCACGGGGTACGACGAGAAGATGGTGCGGGAGATGGAGGGCCTGGAGGCGTCAGGTTCCACCTACGTCTGCACGCTCTGCGACTCCACTCGCGCGCAGGCCTCGCAGAACATGGTGCTGCACTCCATCACGCGCAGCCACCAGGAGAACGGCGAGCGCTACGAGGTGTGGCGCACCAACCCATATGGCGAGTCGGTGGACGAGCTGCGCGACCGCGTCAAGGGCGTCTCCGCCAAGCCCTTCATGGAGATGCAGCCCACCATCGACGCGCTGCACTGCGATATCGGCAACGCAGCCGAGTTCTACAAGCTGTTCCAGGACGAGGTCGGCGAGGTGCACCTGAGGCAGGGCAAGGGAGGCTCCGCCCCCAGCCGCGACGAGCGGAGGCAATGGAGGTCGGCACTCGACAAGCAGCTGAGGAACAAGCTGAAGCTGAAGCCGGTGATGAGGATGAACGGGAACTACTCGCGGCGGCTGATGACGCGGGAGGCAGCGGAGGCGGTGTGCGAGCTCGTGCCCTCCGAGGAGCGGCGGCRGGCGCTGCGCGAGCTCATGGACCTCTACCTGCAGATGAAGGGAGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCCTTTGCTGATGGGATGGGCGCTTTTAAAATCAACCACAGCACC------------CACGAC------CTGGGC---TCA------GGA---CAAAC GGCATTTTCC---TCGCAAGCACCA---GGC---TAC---------------GCCGCTGCCCTGGGA------------CACCATCACCACCCCACC------CATGTCAGCTCC---TATTCCACCGCGGCT---------TTCAATTCCACTCGGGACTTTCTGTTTCGAAATCGGGGCTTCGGAGACGCGACG---AGCGC G---CAGCACAGTCTGTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GGACCACATGGACACT CGGATGCCACT---GGGCACCTGCTTTTCCCGGGACTTCACGAGCAAGCGGCCACTCAC------GCG TCTTCCAATGTTGTAAAT---AGTCAGATGCGCCTG---GGCTTT---TCGGGTGACATGTACGGAAG AGCCGAG------CAGTACGGCCATGTAACCAGCCCCAGG------TCCGAT---CATTATGCTTCGA CCCAGTTGCATGGATATGGCCCC---ATGAACATGAACATGGCTGCA------CACCAT---GGG---GCAGGGGCCTTCTTTCGGTACATGAGGCAACCGATAAAGCAGGAACTTATCTGCAAATGGATCGAACCGGAACAATTGACAAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGCTCGTCACACATCTCACGGTGGAACATGTCGGGGGACCAGAACAATCAAACCATGTCTGCTTTTGGGAAGAGTGTCCGAGGGAAGGAAAACCTTTCAAAGCAAAGTACAAACTTGTAAATCACATCAGAGTACACACCGGTGAAATGGTGGGGACAGCCCTAAGCCTCTTAATTCGAGCAGAACTGAGTCAACCTGGAGCCTTCTTGGGAGACGACCAAATTTACAACGTCATTGTTACAGCACATGCTTTCGTAATGATTTTCTTTATGGTTATACCGATCATAATTGGGGGTTTTGGAAACTGACTGGTGCCTCTAATAATTGGAGCCCCAGACATAGCATTCCCCCGAATAAACAATATAAGCTTTTGACTTCTACCACCTTCATTTCTACTTCTTCTATCTTCCTCAGGAGTTGAAGCTGGGGCAGGAACGGGGTGAACAGTTTATCCCCCTCTTGCTGGCAATTTAGCCCACGCCGGAGCATCAGTAGACCTAACTATTTTCTCTCTTCACTTAGCAGGTGTCTCATCAATTCTTGGAGCCATCAACTTTATTACCACAATTATTAACATGAAACCTCCAGCCATTTCACAATACCAAACCCCTTTATTTGTGTGATCAGTACTTGTTACTGCAGTACTACTATTATTATCACTGCCGGTTTTAGCCGCAGGCATTACCATGCTTCTCACAGATCGAAACTTAAATACAACCTTCTTTGACCCGGCAGGAGGGGGAGATCCAATTTTATACCAACACTTATTCTGATTCTTTGGTCACCCTGAAGTATATATCCTTATTCTCCCAGGATTTGGTATAATTTCACATATTGTTGCATATTATGCCGGGAAAAAAGAACCATTCGGCTACATAGGAATAGTCTGAGCTATAATGGCCATTGGACTCTTAGGGTTTATTGTCTGAGCACACCATATATTTACAGTGGGTATAGACGTAGACACACGAGCCTAT
89
Moringua javanica NNNAAGAGAGTCATTCAGTACTTTGCCAGCATTGCTGCAGCT---------GGAGGAGCAAAGAAGGA TACCAGCGGGGGAACCTTGGAGGATCAAATCATCCCGGCTAACCCTGCCCTGGAGGCTTTCGGTGACGCCAAAACAGTGAGAAATGACTACTCCTCACGTTTTGGAAAATTTATCCGGATTCACTTTGGAACTGGTGGCAAGCTGTCCTCTGCGGACATAGAAACCTACCTTCTGGAAAAATCACGTGTCACCTTTCAGCTCACGTCAGAGAGGAACTACCATATCTTCTACCAGATCTCGTCCAACAAAAAGCCAGAGCTGCTGGACATGTTGTTGATCACCAACAATCCATATGATTACTCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCGACGATTCTGAGGAGTTGATCGCCACYGACAGTGCCTTCGATGTGCTGGGCTTCACTCAAGAGGAGAAAATGGGGGTCTACAAGCTGACAGGTGCCATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTGTGCCATCCCAGGGTTAAAGTTGGCAATGAGTTTGTCACCAAAGGGCAGAGTGTAGACCAAGTCTACTACNNNGCTGTACGTTTCTCTTTCACCATTATGTCTGTTTCTGTGCTGGCAGGCGATGGGGGGAAGGAG------------------GTTATCATCTTCACTGAGCCGAAGCCA AACTCAGAACTGTCCTGTAAGCCCCTCTGCCTGATGTTTGTGGATGAGTCAGACCATGAGACACTCACAGCTGTCCTGGAGCCGATAGTCGCAGAGCGAAAGGCCATGAAGGAGAGCCGACTCATCCTGTCCATGGGCAACTTGCTCCGCTCCTTCCGCTTCCACTTCAGAGGTACGGGATACGACGAGAAGATGGTGCGTGAGATGGAGGGACTGGAAGCCTCGGGGTCCACATATGTCTGCACTCTGTGCGACGTCAATCGTGCCGATGCGTCAGAGAACATGGTGCTGCACTCCATCACTCGCAGTCATTCGGAGAACTTGGAACGTTACGAAATATGGAGAACCAACCCCTTTTCAGAGTCTGTGGACGAGCTGCGAGACCGAGTCAAAGGTGTCTCTGCCAAGCCCTTTCTGGAGACTCAACCCACACTGGATGCATTGCACTGCGACATTGGCAATGCCACCGAATTCTACAAAATCTTCCAGGATGAGATCGGGGAAGTGTAC---------------AAAAAGGTCAACCCCAGCC GGGAGGAACGGCGCAGCTGGAGGGCAGCCCTAGATAAACAGCTGAGGAAGAGGATGAAGCTCAAGCCGGTAATGAGGATGAATGGGAACTATGCCCGTCGGCTAATGACCCAAGAGGCTGTGGAAGTTGTGTGTGAGCTGGTGCCCTCGGAGGAGAGGAGGGAGGCCCTGAGGGAGCTCATGAGGCTCTACNNNNNNNNNNNNGGCGAAGTCACCGATAGAGAAGTTGGGCTGGGGTTAAATCCTTTTGCCGACGGGATGGGCGCTTTCAAAATCAACCATGGCACT------------CACGAA------CTTGCT---TCT------GGA---CAAAC AGCATTCTCT---TCGCAGGCTCCC---AGC---TAC------------GCGGCAGCCGCTTTGGGG------------CATCACCACCACCCTGCT------CATGTCAGCTCC---TACTCAACAGCGGCG---------TTCAACTCCACCCGGGACTTCCTGTTCCGAAATCGGGGATTCGGGGACGCGGCA---AGCGC T---CAACACAGCCTTTTTGCCTCAGCGGCA------GGAACTTTCGCA---GGAACACATGGACACT CAGATGCAACC---GGACACCTTCTTTTCCCGGGACTGCACGAGCAGGCAGCCGCGCAC------GGG TCTCCGAACGTTGTAAAT---AGTCAGATGCGCCTG---GGGTTT---ACTGGGGACATGTACGGAAG GGCAGAA------CAGTATGGGCAGGTGACGAGCCCCAGG------TCTGAG---CACTATGCGTCGA CCCAGTTGCACGGGTATGGTGCT---ATGAACATGAACATGGCTGCA------CACCAC---GGG---GCTGGGGCCTTTTTTCGATACATGAGACAACCCATTAAGCAAGAGCTTATCTGCAAGTGGATTGAACCGGACCAGCTGTCAAATCCCAAGAAGTCTTGTAACAAAACTTTCAGCACCATGCACGAGCTCGTGACTCACCTCACGGTAGAACATGTTGGGGGCCCAGAACAGTCAAATCACATCTGTTTTTGGGAAGAGTGTCCCAGGGAAGGCAAACCATTTAAAGCAAAATACAAACTAGTTAATCATATCAGAGTGCACACGGGCGAANNNNNNNNNNNNGCATTAAGCCTTCTAATCCGAGCCGAACTTAGCCARCCCGGAGCACTTCTTGGGGATGACCAAATCTACAATGTCATCGTCACAGCACATGCTTTCGTAATAATTTTCTTTATAGTAATGCCAGTAATAATTGGGGGATTCGGCAATTGACTCGTGCCATTAATAATCGGTGCCCCCGACATAGCGTTTCCCCGAATAAACAACATGAGTTTCTGACTTCTACCACCCTCATTTCTACTCCTACTAGCCTCGTCAGGCGTAGAGGCCGGAGCCGGTACTGGATGAACCGTTTATCCCCCATTGGCCGGAAATCTAGCACATGCTGGAGCATCTGTTGATTTAACTATTTTTTCACTCCACCTCGCAGGTGTGTCATCCATTTTAGGAGCCATTAACTTCATTACTACAATTCTAAATATAAAACCTCCTGCTATCACACAATACCAAACTCCACTATTTGTATGAGCCGTTCTTGTAACAGCAGTACTTCTCCTCTTATCCCTCCCCGTACTAGCAGCTGGGATTACAATACTATTAACAGATCGAAACTTAAATACAACATTTTTTGACCCCGCCGGGGGAGGAGACCCGATTCTCTACCAGCACTTATTCTGATTTTTTGGGCACCCGGAAGTATACATTCTAATCTTACCGGGATTCGGAATAATTTCACACATTGTTGCCTACTACGCAGGCAAAAAAGAGCCATTCGGGTACATAGGAATAGTTTGAGCCATAATAGCTATCGGACTTCTTGGCTTCATCGTATGAGCCCATCATATGTTTACAGTGGGCATAGATGTAGACACCCGTGCTTAC
90
Gymnothorax melatremus ACCAAGAGAGTCATTCAGTACTTCGCCAGCATCGCCGCCGTG---------GGCGGAGGGAAAAAGGA CACCAGCAAGGGGACGCTGGAGGATCAGATCATCCAGGCCAACCCGGCGCTGGAAGCCTTTGGCAACGCCAAAACGCTGAGAAACGACAACTCTTCGCGTTTCGGAAAGTTCATCCGAATTCACTTCGGTACGAGCGGAAAGCTGTCGTCTGCTGACATCGAGACGTACCTGCTGGAGAAGTCCCGCGTCACCTTTCAGCTGAAGGCNGAGAGGAACTACCACATCTTCTACCAGATCTTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCGTACGATTACTCCTACATCTCCCAGGGGGAGGTGACGGTCGCCTCCATCAACGACGCCGAGGAGCTGATGGCCACCGACAGCGCCTTCGACGTGCTYGGCTTCACCCCCGAGGAAAAGGTGGGCGTCTACAAACTGACGGGCGCCATCATGCACTACGGCAACATGAAGTTCAAACAGAAGCAGCGCGAGGAGCAGGCCGAGCCGGACGGCACGGAGGCGGCGGATAAATYGGCGTACCTAATGGGGCTGAACTCCGCCGACCTCATCAAAGGACTGTGCCACCCCAGGGTCAAGGTGGGCAACGAGTAYGTCACCAAGGGTCAAAGTGTGGACCAAGTCTACTACAAGGCGGTTCGTTTTTCGTTCACGGTGATGTCAGTGTCCGTGAAGCCTGAGGGTGCCGATGAGGAG------------------GTAACGATCTACCGGGAACCCAAGCCC AACTCAGAGCTCAGCTGCCGGCCACTGTGCCTGATGTTTGTGGACGAGGCCGACCACGAGACGGTGACCGGCATCTTGGGGCCCCTGGTGGCCGAGCGCTCTGCCATGAAGGAGTCCCGTCTCATCCTGTCCATTGGCGGCCTGGCACGGTCCTTCCGCTTTCACTTCCGGGGGACGGGGTACGATGAGAAGATGGTGCGCGAGCTTGAAGGGCTGGAAGCATCTGGGTCCACCTACATCTGCACCCTCTGCGATGCCACCCGTGCGCAGGCCTCCGAAAACATGGTGCTGCACTCTATCACTCGCAGCCATGAGGAGAACCGGGAGCGCTACGAGCTCTGGCGCACCAACCCATACGCCGAGTCTGCCGATGAGCTGCGAGACCGTGTAAAGGGCGTCTCTGCCAAACCTTTCATGGAAACCCAGCCCACCATGGACGCGCTGCACTGCGACATCGGAAACGCCACTGAGTTCTATAAGCTCTTCCAGGATGAGATCGGCGAGATGCAT------CTGCGGACCACCGCACCCCCTCCTGCCC GTGAGGAGCGAAGATGCTGGCGGGCCACGCTGGACAAACAGCTGAGAAAGAAGTTGAAGCTCAAGCCCGTGATGAGGATGAATGGGAACTACGCGCGGCGCCTTATGACGCGCGAGGCCATAGACGCCGTTTGTGAACTGGTGCCCTCAGACGAGCGGCGGCAGGCNCTCAGGGAGCTGATGGAGCTCTACCTCCAGNNNNNN???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTAGGCACAGCCCTTAGCCTACTCATCCGGGCAGAACTTAGCCAACCGGGGGCTCTTTTGGGTGATGATCAAATTTATAATGTGATCGTTACCGCACATGCTTTTGTAATAATCTTTTTTATGGTCATGCCAATTATAATTGGCGGTTTCGGAAACTGATTGATCCCACTGATRATCGGTGCCCCCGACATGGCATTCCCACGAATAAATAATATGAGCTTTTGACTTCTCCCCCCTTCCTTTCTCCTTCTCCTCGCCTCTTCAGGCGTGGAAGCCGGGGCAGGGACGGGCTGAACTGTCTACCCCCCGCTAGCAGGTAACCTCGCACATGCAGGAGCATCCGTGGACCTGACAATCTTCTCACTTCACCTTGCGGGAATTTCCTCAATTCTAGGTGCAATTAATTTTATTACAACTATCATTAACATGAAGCCCCCGGCTATTTCTCAGTACCAGACACCATTATTTGTCTGAGCTGTCCTAATTACAGCCGTCCTTCTTCTCCTCTCCCTCCCAGTCCTTGCGGCCGGAATCACAATGTTGCTGACAGACCGAAATCTTAATACTACTTTCTTTGACCCCGCAGGAGGAGGAGACCCAATTCTTTACCAACACCTATTTTGATTCTTTGGGCACCCCGAAGTTTACATCCTTATTCTCCCCGGCTTTGGAATGATCTCCCATATTGTTGCCTACTACGCCGGCAAGAAAGAGCCATTTGGATACATAGGCATGGTTTGGGCCATAATGGCAATTGGTCTCCTAGGCTTCATCGTTTGAGCCCACCATATGTTTACCGTCGGCATGGACGTAGATACCCGAGCNNNN
91
Derichthys serpentinus ACCAAGAGAGTCATTCAGTATTTCGCCAGCATTGCTGCTACA------------GGCGGAAAGAAGGA TACCAGCAAGGGAACACTGGAGGATCAAATCATCCAGGCAAACCCAGCGCTGGAGGCCTTCGGTAATGCCAAGACCGCRAGGAATGACAACTCCTCACGTTTTGGGAAATTTATTCGTATTCATTTCGGAGTAAGTGGCAAGCTGTCCTCTGCTGACATAGAAACCTACCTGCTTGAGAAATCTCGTGTCACCTTTCAGCTCAAAGCTGAGAGGAACTACCACATATTCTACCAGATCATGTCCAACAAAAAGCCAGAATTGCTGGACATGCTGTTGATCACCAACAACCCATACGACTATGCTTACGTCTCCCAAGGAGAGGTGACGGTCGCATCCATTGATGACTCAGAGGAACTGCTTGCCACAGACAGTGCCTTTGATGTGCTGGGCTTTACAGCTGAGGAGAAGATGGGTGTYTATAAGCTGACTGGTGCCATCATGCATTACGGAAATATGAAATTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGCCTGATGGCAGTGAGTCTGCAGACAAGTCAGCCTTCCTGATGGGGCTGAACTCTGCTGACCTTCTCAAGGGAGTCTGCCATCCAAGGGTTAAAGTTGGAAATGAGTATGTCACCAAAGGCCAAAMTGTGGATCAAGTCTATTATAAGGCGGTGCGCTTCTCCATCACGGTCATGTCCGTCTCCGTCCAGGCCGAAGGAGAGGAGGAGGCG------------------GTCACCATCTTCCGGGAGTCCAAGCCC AACTCTGAGCTGACCTGTAAGCCACTGTGCTTGATGCTTGTGGATGAGTCGGACCACGAGACACTCACGGCAGTCCTAGGGCCTCTGGTGGCCGAGCGCAACGCCATGAAGCACAGCCGGCTCATCCTGTCCCTGGGCGGCCTCCCGCGCTCCATCCGCTTCCTCTTCCGAGGAACGGGTTATGACGAGAAGATGGTGCGTGAGATGGAGGGTCTGGAGGCCTCTGGCTCCACCTATATCTGCACCTTGTGCGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACGCGCAGCCACGACGAAAACCTGGAGCGCTACGAGCTGTGGAGGACCAACCCCTTCTCGGAGTCCGCGGAGGAGCTGCGAGACCGGGTCAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACGCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTAC---------------CGCAGGCCCAACCCCAGCC GGGAGGAGCGGCGGAGCTGGCGGGCCACCCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCGGTGATGCGGATGAACGGGAACTACGCGCGGCGGCTGATGACGCGGGAGGCGGTGGAGGCGGTGTGTGAGCTGGTGCCGTCGGAGGAGAGGCGGGATGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGGGAGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCCTTTGCTGATGGGATGGGCGCTTTCAAAATCAACCACAGCACC------------CACGAC------CTAGGC---TCT------GGA---CAAAC GGCGTTTTCC---TCGCAGGCGCCG---GGC---TAC---------------GCCGCTGCCCTGGGA------------CACCAYCACCACCCCACC------CATGTCAGCTCC---TATTCCACCGCGGCT---------TTCAATTCCACTCGGGACTTTCTGTTTCGAAATCGCGGGTTCGGAGACGCGACG---AGCGC G---CAGCACAGCCTGTTCGCGTCCGCAGCG------GGAAGTTTCGCA---GGGCCACATGGACACT CGGATGCGACT---GGGCACCTGCTTTTCCCGGGACTCCACGAGCAAGCGGCCACGCAC------GCG TCCTCCAATGTTGTGAAC---AGTCAGATGCGTCTG---GGCTTT---TCTGGGGACATGTACGGCCG AGCCGAG------CAGTACGGCCATGTCACCAGCCCCAGG------TCCGAC---CATTACGCGTCCA CCCAGTTGCACGGATATGGCCCC---ATGAACATGAACAGGGCTGCG------CACCAC---GGG---GCAGGGGCCTTCTTTCGGTACATGAGGCAGCCGATCAAGCAGGAGCTCATCTGCAAATGGATCGAGCCAGAACAGTTGTCGAACCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGATTCGAGCCGAACTAAGTCAGCCAGGCACCCTCCTAGGAGACGACCAAATTTACAATGTCATCGTCACGGCACACGCCTTCGTAATAATTTTCTTTATGGTAATGCCCATTATAATCGGCGGGTTCGGCAACTGACTAGTACCCCTAATGATTGGGGCCCCCGACATGGCCTTCCCGCGAATGAATAACATGAGCTTCTGATTACTTCCCCCATCATTTCTGCTGTTACTCTCCTCCTCCGGTGTTGAAGCCGGGGCGGGCACCGGGTGGACAGTATACCCCCCCCTCGCCGGAAACCTAGCCCACGCCGGAGCATCCGTCGACTTGACTATCTTTTCTCTCCATCTCGCGGGGGTCTCTTCTATCCTGGGGGCCATTAACTTCATTACTACAATTGTTAACATAAAACCCCCTGCCATCACACAATACCAAACCCCCTTATTCGTGTGATCTGTACTAGTAACAGCCGTTCTTCTGCTCCTCTCCCTCCCCGTACTAGCAGCAGGAATTACAATACTGCTAACAGACCGAAACCTAAATACGACATTCTTTGACCCCGCAGGAGGGGGGGACCCAATCCTCTATCAACACTTATTCTGATTCTTCGGACACCCAGAAGTATATATTTTAATCCTGCCCGGGTTCGGAATAATCTCACACATTGTAGCCTACTACGCCGGCAAAAAAGAGCCCTTTGGCTATATGGGAATAGTCTGGGCCATAATAGCCATTGGCCTACTCGGATTTATTGTTTGAGCACACCACATGTTTACAGTAGGGATAGACGTAGATACCCGAGCTTAT
92
Serrivomer beanii ACCAAGAGAGTCATTCAGTATTTTGCCAGCATTGCTGCTGCT---------GGAGGAGGAAAGAAGGA TGCCAGCAAGGGAACCCTGGAGGATCAAATTATCCAGGCAAACCCAGCACTGGAGGCTTTTGGCAATGCTAAGACTGCGAGGAATGACAACTCCTCGCGTTTTGGGAAATTCATTCGCATTCATTTTGGAGTAAGTGGCAAGCTTTCCTCTGCTGACATAGAAACCTACCTACTCGAGAAATCTCGTGTCACCTTTCAGCTCAAATCTGAGAGGAACTATCACATTTTCTACCAGATCATGTCCAACAAAAAGCCAGAATTGCTGGACATGCTGTTGATCACCAACAACCCGTACGATTATGCGTATGTCTCCCAAGGAGAGGTGACGGTTGCATCCATCGATGACTCAGAGGAACTGATCGCCACAGACAGTGCCTTTGATGTGCTGGGCTTCACGGCCGAGGAGAAGATGGGTGTCTATAAACTGACAGGCGCCATCATGCATTATGGAAACATGAAATTCAAGCAGAAGCAGCGTGAGGAGCAGGCTGAGCCTGATGGCAGTGAGTCTGCTGACAAGTCATCCTACTTGATGGGGCTGAACTCTGCTGACCTTCTCAAGGGACTCTGCCATCCACGGGTTAAAGTCGGAAATGAGTATGTCACCAAAGGTCAAACTGTGGATCAAGTCTACTATNNNNNNNNNNNNNNNNNNNNNACGGTGATGTCAGTGTCCGTGAAGCCTGAGGGTGCCGATGAGGAG------------------GTAACGATCTACCGGGAACCCAAGCCC AACTCAGAGCTCAGCTGCCGGCCACTGTGCCTGATGTTTGTGGACGAGGCCGACCACGAGACGGTGACCGGCATCTTGGGGCCCCTGGTGGCCGAGCGCTCTGCCATGAAGGAGTCCCGTCTCATCCTGTCCATTGGCGGCCTGGCACGGTCCTTCCGCTTTCACTTCCGGGGGACGGGGTACGATGAGAAGATGGTGCGCGAGCTTGAAGGGCTGGAAGCATCTGGGTCCACCTACATCTGCACCCTCTGCGATGCCACCCGTGCGCAGGCCTCCGAAAACATGGTGCTGCACTCTATCACTCGCAGCCATGAGGAGAACCGGGAGCGCTACGAGCTCTGGCGCACCAACCCATACGCCGAGTCTGCCGATGAGCTGCGAGACCGTGTAAAGGGCGTCTCTGCCAAACCTTTCATGGAAACCCAGCCCACCATGGACGCGCTGCACTGCGACATCGGAAACGCCACTGAGTTCTATAAGCTCTTCCAGGATGAGATCGGCGAGATGCAT------CTGCGGACCACCGCACCCCCTCCTGCCC GTGAGGAGCGAAGATGCTGGCGGGCCACGCTGGACAAACAGCTGAGAAAGAAGTTGAAGCTCAAGCCCGTGATGAGGATGAATGGGAACTACGCGCGGCGCCTTATGACGCGCGAGGCCATAGACGCCGTTTGTGAACTGGTGCCCTCAGACGAGCGGCGGCAGGCCCTCAGGGAGCTGATGGAGCTCTACCTCCAGATGAAAGGCGAAGTCTCCGATAGAGAAGTTGGGTTGGGGTTAAATCCTTTTGCTGACGGGATGGGAGCTTTCAAAATCAACCATGGTACT------------CACGAA------CTTGGT---TCT------GGA---CAAAC TGCTTTCTCA---TCACAGACTCCG---AGC---TAC------------GCAGCAGCCGCTTTGGGG------------CATCACCACCACCCTGCT------CATGTCAGCTCC---TACTCAACCGCAGCG---------TTCAACTCCACCAGGGACTTTCTGTTCCGAAATCGGGGATTCGGTGACGCAGCA---AGCGC A---CAACACAGTCTTTTTGCCTCAGCGGCA------GGAACTTTCGCA---GGGGCTCATGGACACT CAGATGCCACT---GGACACCTTCTATTCCCGGGACTGCAYGAGCAGGCAGCCACACAT------GGG TCTCCGAACGTTGTAAAT---GGTCAGATGCGCCTG---GGGTTT---ACCGGGGACATGTACGGCAG AGCAGAA------CAGTATGGGCAGGTGACGAGTCCCAGG------TCTGAG---CACTATGCATCGA CACAGTTGCACGGTTATGGTGCT---ATGAACATGAACATGGCTGCA------CACCAC---GGG---GCTGGAGCCTTTTTTCGATACATGAGACAACCGATTAAACAAGAGCTTATCTGCAAGTGGATTGAACCGGACCAGCTGTCGAATCCCAAAAAGTCTTGTAACAAAACTTTCAGCACCATGCACGAGCTCGTGACTCACCTCACTGTTGAACATGTTGGGGGCCCAGAACAGTCAAATCACATCTGCTTTTGGGAAGAATGTCCCCGGGAAGGCAAGCCATTTAAAGCAAAATACAAGCTTGTTAATCACATCAGAGTGCATACNGGCGAGATGGTGGGCACTGCATTAAGCCTACTAATCCGTGCTGAACTAAGCCAACCTGGCGCCCTTCTTGGAGATGATCAAATTTACTATGTTATTGTTACAGCACATGCGTTTGTAATAATTTTCTTTATAGTAATACCAGTAATAATTGGTGGATTCGGCAACTGACTTGTACCCCTAATGATCGGAGCCCCAGACATGGCATTCCCTCGAATAAATAACATAAGCTTCTGACTCCTCCCCCCCTCATTTCTCTTACTACTGGCATCCTCTGGGGTAGAAGCCGGAGCTGGGACAGGTTGAACTGTATACCCCCCTCTAGCCGGAAACTTGGCCCACGCTGGAGCATCAGTTGACTTAACAATTTTCTCACTTCACCTTGCAGGGATCTCATCAATTCTAGGGGCAATTAACTTTATTACCACAATCATTAATATGAAACCGCCTGCCATTACCCAGTATCAAACCCCTTTATTCGTGTGATCTGTCCTAGTGACTGCAGTACTACTTCTGCTCTCTCTGCCAGTTCTCGCTGCAGGAATCACAATACTTCTAACCGATCGAAACCTAAACACAACATTCTTTGACCCTGCAGGAGGAGGAGACCCAATCCTGTACCAACACCTTTTCTGATTCTTTGGTCACCCAGAAGTGTACATTTTAATTTTACCCGGATTTGGAATAATCTCCCACATCGTCGCCTATTATTCAGGTAAAAAAGAACCCTTCGGCTATATAGGAATGGTCTGAGCAATAATGGCTATCGGACTCCTAGGATTTATCGTATGAGCACATCACATATTCACAGTGGGAATAGACGTAGACACTCGTGCTTAT
93
Eurypharynx pelecanoides ACTAAGAGAGTCATTCAGTATTTTGCCAGCATTGCTGCTGCA---------GGAGGAGGAAAGAAGGA TACCAGCAAGGGGACCCTGGAGGATCAAATTATCCAGGCAAACCCAGCGCTGGAGGCTTTTGGCAATGCCAAGACTGCGAGGAATGACAACTCCTCACGTTTTGGGAAATTTATTCGCATTCATTTTGGAGTAAGTGGCAAGCTGTCCTCTGCTGATATAGAAACCTACCTACTCGAGAAATCTCGTGTCACCTTTCAGCTTAAATCTGAGAGGAACTATCACATTTTCTACCAGATCACATCCAACAAAAAGCCAGAATTGCTGGACATGCTGTTGATCACCAACAACCCCTACGATTATGCTTATGTCTCCCAAGGAGAGGTGACAGTTGCATCCATTGATGACTCAGAGGAACTGATCGCCACAGACAATGCCTTTGATGTGCTGGGCTTCACGGCGGAGGAGAAGATGGGTGTGTATAAGCTAACGGGTGCCATCATGCATTATGGAAACATGAAATTCAAGCAGAAGCAGCGTGAGGAGCAGGCCGAGCCTGATGGCACTGAGTCTGCTGACAAGTCAGCCTACCTGATGGGGCTGAACTCTGCTGACCTTCTCAAGGGAATCTGCCATCCACGGGTTAAAGTTGGAAATGAGTTTGTCACCAAAGGTCAAAATGTGGATCAAGTCTACTATNNNGCTGTGCGCTTCTCCATCACCGTCATGTCTGTCTCCTGTCCAGGCCGAGGAGAGGATGAGGCC------------------GTCACATCTTTCAGGGAGTCCAAGCCC AACTCTGAGCTGATCTGTAAGCCACTGTGCTTGATGCTTGTGGATGAGTCTGATCACGAGACCCTCACGGGTGTCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGCACAGCCGCCTCATCCTGTCCCTGGGAGGGCTCCCTCGCTCCATCCGCTTCCACTTCAGAGGAACGGGTTATGATGAGAAGATGGTGCGCGACATGGAGGGCCTGGAGGCCTCAGGCTCCACCTACATCTGCACCTTGTGCGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCATGAGGAGAACATGGAGCGCTATGAGATGTGGAGGACCAACCCCTACTCGGAGTCCGCAGAGGAGCTGCGAGACCGGGTGAAAGGTGTCTCGGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGATGCCCTGCACTGTGACATTGGCAATGCCACGGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTAC---------------CGCAGCCCCAACCCCAGCA GGGAGGAGCGACGGGGCTGGAGGGCTGCTCTGGACAAGCAGCTGAGGAGGAAGATGAAGTTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCACGCAGGCGGTGGAGGTGGTGTGTGAGCTGGTCCCGTCAGAGGAGAGGCGAGAGGCCCTGAGGGAACTGATGGGGCTCTACCTTCAAATGAAAGGCGAAGTCACCGATAGAGAAGTTGGGTTGGGGTTAAATCATTTTGCTGACGGGATGGGAGCTTTCAAAATCAACCATGGTACT------------CACGAA------CTTAGT---TCT------GGA---CAAAC TGCTTTCTCT---TCGCAGACTCCG---AGC---TAC------------GCAGCAGCTGCTTTGGGG------------CATCACCACCACCCGGCT------CATGTCAGCTCC---TACTCAACCGCCGCG---------TTCAACTCCACCAGGGACTTTCTGTTCCGAAATCGGGGATTCGGCGACGCAGCA---AGCGC A---CAACACAGTCTTTTTGCCTCAGCGGCA------GGAACTTTCGCA---GGGGTTCATGGACACT CAGATGCCACC---GGACACCTTCTATTCCCGGGACTGCACGAGCAGACAGCCACACAT------GGG TCTCCGAACGTTGTAAAT---GGCCAGATGCGCCTG---GGGTTT---ACCGGGGATATGTACGGCAG AGCAGAA------CAGTATGGGCAGGTGACGAGTCCAAGG------TCTGAG---CACTATGCATCGA CACAGTTGCACGGTTATGGTGCT---ATGAACATG------GCTGCA------CACCAC---GGG---GCTGGGGCCTTTTTTCGATACATGAGGCAACCGATTAAACAAGAGCTCATCTGCAAATGGATAGAACCGGACCAGCTGTCGAATCCCAAAAAGTCTTGTAACAAAACGTTCAGCACCATGCACGAGCTCGTGACTCACCTCACTGTTGAACATGTTGGGGGCGCAGAACAGTCAAATCACATCTGCTTTTGGGAAGAATGTCCCCGGGAAGGCAAGCCATTTAAAGCAAAATACAAGCTAGTTAATCACATCAGAGTGCATACGGGTGAGATAGTCGGCACCGCACTAAGCCTATTAATTCGCGCTGAACTTACTCAACCAGGAGCCCTTCTTGGAGATGATCAGATTTATAATGTTATCGTAACAGCCCATGCTTTTGTAATAATTTTCTTTATGGTGATACCAATTATAATCGGAGGATTCGGCAATTGACTAATCCCCCTAATAATTGGAGCCCCAGACATAGCATTCCCCCGTATGAACAATATAAGCTTCTGACTTCTCCCCCCCTCATTTCTTCTCCTTTTAGCCTCTTCCGGGGTAGAAGCCGGAGCCGGCACAGGGTGAACCGTTTATCCTCCCCTAGCTGGAAATTTAGCTCATGCCGGAGCATCAGTAGATTTAACAATCTTCTCACTTCATCTTGCAGGAATCTCCTCAATTCTTGGGGCCATTAATTTTATTACGACCATTATTAATATAAAACCCCCAGCCATTTCACAATACCAAACACCCCTTTTTGTTTGATCTGTGTTAGTCACCGCTGTCCTCTTACTCTTATCCCTCCCCGTCCTAGCTGCGGGCATCACAATACTCCTAACTGACCGAAACTTAAACACAACATTCTTTGATCCTGCAGGAGGGGGGGACCCCATCCTTTACCAACACCTATTCTGATTTTTTGGGCACCCAGAAGTTTATATCTTAATTTTACCCGGATTCGGAATAATTTCACACATTATTACCTATTACTCGGGCAAAAAAGAGCCCTTCGGATATATGGGCATAGTTTGAGCCATAATAGCCATTGGCCTATTAGGCTTCATCGTATGAGCCCACCATATATTCACGGTTGGCATAGATGTAGACACCCGTGCCTAT
94
Engraulis eurystole ACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCGGCAGTC---------GGCGGAGCAAAGAGGGA CGAGAGCAAAGGGACACTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTGGAGGCCTTTGGGAATGCCAAGACAGTCAGGAACGACAACTCGTCTCGCTTCGGAAAATTCATCCGCATTCACTTCGGAACAACTGGCAAACTGTCCTCTGCTGACATTGAAACGTACCTCCTGGAAAAATCCAGGGTGACCTACCAGCTAAAGGCTGAGAGGAACTACCACATCTTTTACCAGATCATGTCCAACCAAAAGCCAGAGCTGTTGGATATGCTGCTCATCACTAACAACCCATACGATTACTCCTATGTCTCTCAAGGGGAGATCACTGTGGCATCAATCAATGACGCGGATGAGCTGATGTTAACAGACAGTGCCTTTGATGTTCTCGGATTCACCGGAGAGGAGAAATTGGGCATCTACAAGCTGACTGGAGCCATCATGCACTATGGCAACATGAAGTTCAAGAATAAACAGAGGGAAGAGCAGGCCGAGCCCGATGGCACAGAGTCAGCAGACAAGTCATCTTACCTGATGGGGCTGAACTCAGCTGACCTGGTCAAAGGCCTCTGCCACCCAAGGGTCAAGGTAGGCAATGAGTATGTCACTAAAGGCCAGAGTGTAGATCAAGTCTATTATAAGGCTGTGAGGTTCTCCTTCACCATCATGTCGGTGTCGGCACACGTGGAGGGCGAGGAGGACTCA------------------GTGAGTATTTTTCAAGAGATGAAGCCY AACTCCGAGCTCTCGTGCAAGCCCCTGTGTCTGATGTTCGTTGATGAGTCAGACCATGAGACACTGACAGCCATCCTGGGACCCGTGGTGGCGGAACGTAACGCCATGAAGGAGAGTCGACTGATCCTCTCCATAGCCGGCTTGCCGAGGTCCTTCCGCTTCCACTTCCGGGGCTCTGGCTATGACGAAAAGATGGTTCGTGAGATGGAAGGCCTGGAGGCCTCTGGTTCCACCTACATCTGCACGCTGTGTGACTCCACCCGGGCCGACGCCTCCAAAAACATGGTGCTGCACAGCATCACCCGGAGCCACCAGGAGAACCTGGAGCGCTATGAGCTGTGGCGCACCAACCCTTATTCCGAGTCTGCCGATGAGCTACGCGACCGGGTCAAGGGTGTCTCTGCCAAGCCTTTCATGGAGACCCAGCCCACCTTGGAYGCTCTACACTGCGACATYGGCAACGCTACCGAGTTCTACAAGATCTTCCAAGATGAGATCGGTGAGATGCAT------------GCCCGTACTGATGTCCCAAAAC GTGAAGAGAGGCGACAATGGAGGGCTGCTCTGGACAAGCAACTTCGGAAGAAGATGAAGCTGAAACCTGTCATGCGTATGAATGGCAACTACGCCCGTCGGCTGATGACGACAGAGGCCGTGGAGGCTGTGTGCGAGCTGGTGCCCTCAGAGGCCCGCCGGCAGGCCCTGCGGGAGCTGGTGGCCCTCTACCTCCAGATGAAGGGCGAAGTCACGGACAGAGAGGTGGCTTTGGGCATCAACCCCTTCGCAGACGGAATGGGCGCTTTCAAAATCAACCACAGCTCG------------CACGAT------CTTGGA---TCG------GGG---CAGAC GGCGTTTGCC---TCGCAGGCGCCA---GGC---TAC------------GCGGCAGCTGCCCTCGGA------------CACCATCACCATCCCACT------CACGTCAGCTCG---TACTCCACCGCAGCC---------TTCAACTCCACCCGGGACTTTCTGTTTCGGAATCGGGGCTTCGGAGATGCCACT---AGTGC A---CAGCACAGTCTCTTCGCTTCCGCAGCG------GGAAGTTTCGCG---GGACCACATGGACACT CTGATGCTGCG---GGACACCTGCTCTTTCCGGGACTTCACGAGCAAGCCGCATCGCAC------GCA ACTTCCAACGTAGTCAAC---AGTCAGATGCGTCTG---GGCTTT---TCGGGGGATATGTACGGCAG AGCAGAT------CAGTACGGCCATGTAACGAGCCCGAGG------TCAGAG---CACTACGCCTCGA CCCAACTGCACGGGTATGGCCCC---ATGAACATGAACATGGCTGCC------CACCAC---GGC---GCCGGGGCCTTCTTCCGTTATATGAGACAGCCCATCAAGCAAGAACTCATCTGCAAGTGGATCGAACCCGAGCAGCTCTCCAATCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCATGAGCTCGTGACCCATCTAACGGTGGAGCATGTCGGGGGTCCCGAGCAGTCGAATCATATTTGTTTTTGGGAAGAGTGTGGGAGGGAAGGGAAGCCTTTCAAAGCGAAATACAAACTTGTAAATCATATCCGTGTGCATACTGGAGAANNNGTAGGGACAGCACTTAGCCTCCTTATTCGAGCAGAACTAAGCCAACCAGGAGCACTTCTGGGGGACGATCAAATTTATAACGTAATCGTTACTGCTCACGCATTCGTAATAATCTTTTTCATGGTAATGCCCATTCTAATCGGTGGGTTCGGGAATTGACTAGTTCCTCTTATACTAGGGGCCCCAGACATGGCATTCCCCCGAATGAACAATATGAGCTTTTGACTCCTTCCCCCTTCTTTCCTTCTCCTCTTAGCATCATCTGGTGTTGAAGCAGGGGCCGGGACAGGATGAACAGTCTACCCCCCTCTAGCAGGAAACCTCGCCCACGCCGGAGCGTCAGTGGATTTAACAATCTTCTCTCTCCACTTGGCAGGGATTTCATCGATCCTAGGTGCCATTAATTTCATTACTACCATCATTAATATGAAACCACCTGCTATTTCACAATACCAGACACCTCTATTTGTCTGAGCTGTATTAATCACGGCAGTACTTTTACTTCTTTCACTACCCGTTCTAGCTGCTGGGATTACTATGCTTCTTACAGACCGAAACCTAAATACTACTTTCTTTGACCCAGCAGGGGGAGGAGACCCAATTCTTTATCAACACCTATTCTGATTCTTCGGGCACCCCGAAGTATACATTCTTATTCTTCCCGGATTCGGGATGATTTCCCACATTGTAGCTTACTACGCCGGTAAAAAAGAACCTTTCGGATATATGGGTATGGTCTGAGCCATGATGGCTATCGGACTACTAGGGTTCATTGTATGAGCCCACCACATGTTCACAGTAGGTATGGACGTAGATACTCGAGCATAC
95
Opisthonema oglinum NNNAAGAGGGTCATCCAATACTTTGCGAGCATCGCGGCTGCG---GGGGGTGCTCCAAGCAAGAAAGA CGCCAATGAGGGCACACTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTGGAGGCATTTGGAAATGCCAAAACATTGAGAAATGACAACTCCTCTCGCTTTGGGAAATTCATCCGTATTCATTTTGGAACAAGTGGAAAACTGTCCTCTGCCGACATTGAGACTTATCTGCAGGAAAAATCCAGGGTGACCTTTCAGCTTAAGGCTAAGAGGAACTATCACATCTTCTACCAGATCTTGTCCAATGAAAAGCCAGAGCTGTTGGACATGTTGCTGGTCACCAACAACCCCTATGATTATTCCTACATCTCCCAAGGAGAAATCTCTGTTGCTTCCATCAATGACAACGAGGAGCTGATCGCAACAGACAGTGCCTTCGATGTCCTAGGTTTCACCGCAGAGGAGAAGATGGGTGTCTACAAGCTGACTGGAGCCATAATGCACCATGGCAACATGAAGTTCAAGCAGAAACAGAGAGAAGAGCAGGCTGAGCCAGACAGCACAGAAGCCGCAGACAAGTCTGCTTACCTGATGGGATTAAACTCTGCAGATCTTCTCAAAGGGCTCTGTCACCCGAGGGTCAAGGTAGGCAATGAATATGTCACCAAAGGTCAGAATGTAGATCANNNNNNNNNNAAGGCCGTTCGGTTCTCCTTCACCATCATGTCGGTG------------------------------------------------GTGGTCATCTTCCACGAGATGAAGCCC AACTCAGAACTCTCCTGCAAGCCGCTGTGCCTGATGTTTGTGGACGAGTCGGACCACGAGACACTCACAGCCATCCTGGGCCCAGTGGTGGCTGAGCGTAACGCCATGCAGGAGAGCCGCCTCATCCTGTCACTAGGTGGCCTGCCACGCTCTTTCCGCTTCCACTTCCGCAGTTCGGGCTACGACGAGAAGATGGTGCGGGAAATGGAGGGGCTGGAGGCGTCCGGCTCCACTTACATCTGCACACTGTGTGATTCCACGCGTGCCGAGGCTTCGCACAACATGGTGTTGCATGCCATCACACGCAGCCATCAGGAAAACCTTGAGCGTTACGAACTTTGGCGCACCAACCCCTTCGCCGAGTCGGCTGACGAGCTGCGCGACCGCGTCAAGGGTGTCTCTGCCAAGCCCTTCATGGAAACGCAGCCCACTCTGGATGCTCTGCATTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAAGACGAGATCGGCGAGATGCAT------GCACGTGGTGCCGACTCCGCACCCAGCC GCGAGGAACGCCGCCGTTGGCGTGCGGCCCTCGACAAACAGCTACGCAAGAAGCTAAAGCTAAAACCGGTGATGCGCATGAACGGTAACTACGCACGACGACTGATGACGGATGAAGCGGTGGAGGTTGTGTGCGAGTTGGTACGCTCGGAAGAACGCCAACAGGCACTGCGTGAGCTCATGGCGCTCTACCTGCAGATGAAGGGCGAAGTAACGGACAGAGAGGTAGCTTTAGGGATCAATCCCTTCGCCGATGGAATGGGTGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTTGGT---TCG------GGG---CAAAC GGCGTTTTCC---TCACAGGCGCCT---GGC---TAC------------GCGGCAGCTGCTCTTGGA------------CACCACCACCATCCCACC------CATGTCAGCTCC---TACTCCACGGCCGCT---------TTCAACTCTACCCGGGACTTTCTGTTTCGGAATCGAGGGTTCGGAGATGCCACT---AGCGC G---CAGCACAGTCTGTTTGCTTCCGCTGCA------GGAAGTTTCGCA---GGGCCACATGGACACT CTGATGCTGCG---GGACACCTGCTCTTCCCGGGACTTCACGAGCAAGCGGCTTCCCAC------GCG TCTTCAAACGTAGTGAAC---AGTCAAATGCGCCTG---GGCTTT---TCTGGGGACATGTACGGGAG GGCCGAG------CAATATGGCCATGTAACAAGCCCGAGG------TCTGAG---CACTATGCCTCTA CCCAACTGCATGGGTACGGCCCC---ATGAACATGAATATGGCTGCT------CATCAC---GGC---GCTGGGGCCTTCTTCCGTTATATGAGGCAACCTATCAAACAAGAACTAATCTGCAAGTGGGTCGAGCCGGAGCAGTTGACGAATCCGAAAAAGTCATGTAACAAAACTTTTAGCACGATGCACGAGCTCGTAACTCATCTCACGGTGGAGCACGTCGGGGGTCCAGAACAATCGAATCATATTTGTTTTTGGGAAGAGTGCGCCCGTGAAGGGAAACCTTTCAAAGCGAAATACAAACTTGTAAATCACATCCGAGTGCATACTGGAGAANNNGTAGGGACTGCCCTAAGCCTCCTAATTCGAGCAGAATTAAGCCAACCTGGAGCACTTCTTGGAGATGACCAGATCTACAATGTTATCGTTACAGCACATGCCTTCGTAATGATTTTCTTCATAGTAATGCCAATCCTGATTGGAGGATTTGGAAACTGGCTTGTCCCTTTAATGATCGGGGCACCCGACATGGCATTTCCCCGAATAAATAATATGAGCTTTTGACTCCTGCCCCCCTCTTTCCTTCTTCTTCTGGCCTCCTCGGGGGTAGAAGCCGGGGCGGGGACAGGATGAACAGTATACCCCCCTTTGTCAGGTAATCTAGCCCACGCCGGAGCATCCGTCGATCTAACTATTTTTTCACTACATCTTGCAGGTATCTCATCTATTCTCGGGGCAATCAATTTTATTACTACAATTATTAACATGAAACCCCCTGCAATCTCACAGTACCAGACACCCCTGTTTGTCTGATCAGTTCTAGTAACTGCCGTCCTCCTTCTCCTGTCCCTTCCAGTTCTGGCCGCCGGAATTACTATGCTACTTACAGACCGAAACCTTAACACAACTTTCTTTGACCCAGCAGGTGGAGGAGACCCAATTCTGTACCAACACCTATTCTGGTTCTTTGGTCACCCAGAAGTCTATATTCTAATTCTCCCAGGTTTCGGAATGATTTCTCACATTGTGGCCTACTACGCCGGGAAAAAAGAGCCTTTCGGTTACATGGGAATGGTCTGAGCAATAATGGCCATCGGTCTACTAGGCTTCATCGTCTGAGCCCACCACATGTTTACTGTAGGAATAGATGTGGACACCCGAGCCTAC
96
Dorosoma cepedianum ACCAAGAGGGTCATCCAATACTTCGCGAGCATTGCGGCTGCA---GGGGGTGCTCCAAGCAAGAAAGA TGCCAATAAGGGCACACTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTGGAGGCATTTGGGAATGCCAAAACATTGAGAAATGACAACTCCTCTCGCTTTGGGAAATTCATCCGTATTCATTTTGGAACGAGTGGAAAACTGTCCTCTGCCGACATTGAGACTTATCTTCTGGAAAAATCCAGGGTGACCTTTCAGCTTAAGGCTGAGAGGAACTATCACATCTTCTACCAGATCTTGTCCAATGAAAAGCCAGAGCTGTTGGACATGTTGCTGGTCACCAACAACCCCTATGATTATTCCTACATCTCCCAAGGAGAGATCTCTGTTGCTTCCATCAATGACAACGAGGAGCTGATCGCAACAGACAGTGCCTTCGATGTCCTAGGTTTCACCGCAGAGGAGAAGATGGGTGTCTACAAGCTGACTGGAGCCATAATGCACCATGGCAACATGAAGTTCAAGCAGAAACAGAGAGAAGAGCAGGCTGAGCCAGACGGCACAGAAGCCGCAGACAAGTCTGCTTACCTGATGGGATTAAACTCTGCAGATCTTCTCAAAGGGCTCTGCCACCCGAGGGTCAAGGTAGGCAATGAGTATGTCACCAAAGGTCAGAATGTAGATCAAGTATATTATAAGGCCGTTCGGTTCTCCTTCACCATCATGTCGGTGTCGGCTCAGGTGGAGGCTGAGGACGGTGAGGGATCCACTGCCGCCCCAGTGGTCATCTTCCACGAGATGAAGCCCAACTCAGAACTCTCCTGCAAGCCGCTGTGCCTGATGTTCGTGGACGAGTCGGACCACGAGACGCTCACAGCCATCTTGGGTCCCGTGGTGGCTGAGCGTAACGCCATGCAGGAGAGCCGCCTCATCCTGTCACTTGGTGGCCTGCCACGCTCTTTCCGCTTCCACTTCCGCAGTACGGGCTACGACGAGAAGATGGTGCGGGAAATGGAGGGGCTGGAGGCGTCTGGCTCCACTTACATCTGCACACTGTGTGATTCCACGCGTGCTGAGGCTTCGCACAACATGGTGTTGCATGCCATCACACGCAGCCATCAGGAAAACCTCGAGCGTTACGAACTTTGGCGCACCAACCCCTTCGCCGAGTCGGCTGACGAGCTGCGCGACCGTGTCAAGGGTGTCTCTGCCAAGCCCTTCATGGAAACGCAGCCCACTCTGGATGCTCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGTGAGATGCAC------GCACGTGGTGCCGACTCCGCACCCAGCC GCGAGGAACGTCGCCGTTGGCGTGCGGCCCTCGACAAACAGCTACGCAAGAAGCTAAAGCTAAAACCGGTGATGCGCATGAACGGTAACTACGCGCGACGACTCATGACGGACGAAGCGGTGGAGGTTGTGTGCGAGCTGGTACGCTCGGAAGAACGCCAACAGGCACTGCGTGAGCTCATGGCGCTCTACCTGCAGATGAAGGGCGAAGTAACGGACAGAGAGGTAGCTTTAGGGATCAATCCCTTCGCCGATGGAATGGGTGCTTTCAAAATCAACCATAGCTCG------------CATGAT------CTTGGT---TCG------GGG---CAAAC GGCGTTTTCC---TCGCAGGCGCCT---GGC---TAC------------GCGGCAGCTGCTCTTGGA------------CACCACCACCATCCCACC------CATGTCAGCTCC---TACTCCACGGCCGCT---------TTCAACTCTACCCGGGACTTTCTGTTTCGGAATCGAGGGTTCGGAGATGCCACT---AGCGC G---CAGCACAGTCTGTTTGCTTCCGCTGCA------GGAAGTTTCGCA---GGGCCACATGGACACT CTGATGCTGCG---GGACACCTGCTCTTCCCTGGACTTCACGAGCAAGCGGCTTCCCAC------GCG TCTTCAAACGTAGTGAAC---AGTCAAATGCGCCTG---GGCTTT---TCTGGGGACATGTACGGGAG GGCCGAG------CAATATGGCCATGTAACAAGCCCGAGG------TCTGAG---CACTATGCCTCTA CCCAACTGCATGGGTACGGCCCC---ATGAACATGAATATGGCTGCT------CATCAC---GGC---GCTGGGGCCTTCTTCCGTTATATGAGGCAACCTATCAAACAAGAACTAATCTGCAAGTGGGTCGAGCCGGAGCAGTTGACGAATCCGAAAAAGTCATGTAACAAAACTTTTAGCACGATGCACGAGCTCGTAACTCATCTCACGGTGGAGCACGTCGGGGGTCCAGAACAATCGAATCATATTTGTTTTTGGGAAGAGTGCGCCCGTGAAGGGAAACCTTTCAAAGCGAAATACAAACTTGTAAATCACATCCGAGTGCATACTGGAGAAATAGTAGGGACCGCCCTAAGCCTCCTAATTCGAGCAGAATTAAGCCAACCTGGGGCGCTTCTTGGAGACGACCAGATCTACAATGTTATCGTTACGGCACATGCCTTCGTAATGATTTTCTTCATAGTAATACCAATCCTGATTGGAGGATTTGGAAACTGGCTCGTCCCCCTAATGATCGGAGCACCCGATATGGCATTCCCACGAATGAATAATATGAGCTTTTGACTCCTGCCGCCTTCTTTCCTTCTTCTTCTAGCTTCCTCAGGGGTGGAAGCCGGAGCAGGGACAGGATGAACAGTGTACCCCCCTCTATCGGGCAATCTGGCTCACGCCGGAGCATCCGTAGACCTGACTATTTTTTCACTTCATCTTGCGGGTATCTCATCAATTCTTGGGGCAATTAATTTTATTACCACAATTATTAACATGAAGCCCCCCGCAATCTCACAATACCAGACGCCCCTATTTGTCTGATCTGTCCTTGTGACTGCCGTCCTCCTTCTCCTCTCTCTCCCAGTTCTGGCCGCCGGAATTACTATACTACTTACGGACCGAAATCTAAACACAACTTTCTTTGACCCCGCAGGTGGAGGAGACCCCATCCTGTACCAGCACCTATTCTGATTCTTTGGTCACCCAGAAGTCTATATTCTTATTCTCCCAGGCTTCGGAATGATTTCTCACATCGTAGCCTACTACGCCGGGAAAAAAGAACCTTTTGGTTACATAGGAATGGTCTGAGCAATAATGGCCATCGGGCTGCTAGGCTTCATCGTTTGAGCCCACCACATGTTTACGGTGGGGATGGATGTAGACACCCGAGCTTAC
97
Chanos chanos ACCAAAAGAGTCATCCAATACTTTGCAAGTATTGCAGCGGCT------GGTGGAGGTAACAAGAAGGA TTCTAATAAGGGGACCCTGGAAGATCAGATTATCCAGGCTAATCCTGCACTGGAGGCTTTCGGCAATGCCAAAACGTTGAGAAATGACAATTCCTCTCGCTTTGGGAAGTTCATTCGCATTCATTTCGGGACAAGTGGCAAACTGTCTTCTGCAGACATAGAAACATACTTGCTTGAAAAATCTCGGGTAACATTTCAGCTTAARGCGGAGAGGAACTATCACATCTTCTATCAGATATTATCCAATGAAAAGCCAGAGTTACTGGACATGCTGCTGATTACCAATAACCCTTATGATTACGCATACATCTCCCAAGGAGAAGTAACTGTTGCTTCCATCAATGATAACGAAGAGCTTGTTGCAACAGACAGTGCCTTTGATGTGCTTGGCTTTACTTCAGATGAAAAGGTAGGGGTCTATAAGTTGACTGGTGCAATAATGCACTACGGCAACATGAAGTTTAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGATGGAACAGAGTCTGCTGACAAGTCAGCATACCTGATGGGGCTGAATTCTGCAGATCTTCTAAAGGGACTCTGCCACCCCAGGGTAAAAGTGGGAAATGAGTACGTCACAAAAGGTCAGAGCGTCNNNNNNNNNNNNNNNAAAGCAGTGAGGTTCTCCTTTACAGTGATGTCTATCTCTGTCCAAGCTGAGGGTGAAGATGAAGCA------------------GTCACCATCTACCAAGAGCTGAAGCCC AACTCTGAACTTTCCTGCAGGCCTCTATGCCTCATGTTTGTTGATGAGTCAGACCATGAGACCCTCACTGCAATTCTGGGTCCTGTGGTGGCTGAACGCAAAGCCATGCAAGAGAGTCGCCTCATTCTGTCAATTGGAGGGATGCTTCGCTCCTTCCGCTTTCACTTCCGAGGCACAGGATATGATGAGAAGATGGTACGGGAGCTGGAGGGCCTGGAAGCCTCAGGCTCCACTTATATCTGTACCCTCTGCGACTCCACTCGGGCTGAGGCCTCACACAACATGGTGCTGCACTCCATCACCCGGAGCCATGAGGAGAACCTTGAACGCTATGAGATCTGGAGGACCAATCCATTTTCAGAGTCTGTTGAAGAGCTCAGAGATCGGGTCAAAGGTGTTTCTGCCAAGCCCTTTATGGAGACCCAGCCGACCTTAGACGCCCTTCACTGTGACATTGGCAATGCCACTGAGTTCTACAAGATATTCCAGGATGAGATCGGCGAGATGTAC---------------CTGAAGAACTCCCCAGCAC GGGAAGAGAGACGTCGTTGGCGCTCTGCCCTAGACAAACAGCTGAGGAAGAAGATGAAGCTCAAGCCAGTCATGCGGATGAATGGAAACTACGCTCGTCGCCTGATGACCCGGGAGGCGGTGGAGGCCGTTTGCGAGCTTGTGCCATCACAGGAACGTCGTGAAGCCTTGAGGGAGCTCATGGAGCTATACCTTCANATGAAGGGCGAAGTTACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCCGACGGCATGGGCGCCTTCAAAATTAACCACAGCTCT------------CACGAT------CTTGGC---TCT------GGG---CAAAC GGCGTTTTCC---TCGCAAGCACCC---GGC---TAT------------GCAGCTGCTGCCCTGGGA------------CATCATCATCACCCCACT------CATGTCAGCTCC---TACTCCACCGCGGCT---------TTCAATTCTACTCGGGACTTTCTTTTTCGGAATCGGGGCTTCGGAGACGCTACC---ACAGC A---CAGCACAGTCTTTTCGCCTCAGCCGCG------GGAAGTTTTGCA---GGGCCACATGGACATT CTGATGCCGCA---GGACACCTGCTCTTCCCAGGACTGCACGAGCAAGCAGCGACGCAC------GCG TCCTCGAACGTAGTGAAC---AGCCAAATGCGCCTG---GGGTTT---TCAGGGGACATGTATGGCAG AGCTGAG------CAATACGGTCACGTTACGAGCCCCAGG------TCCGAG---CATTATGCCTCCA CTCAGTTGCATGGCTATGGCCCC---ATGAACATGAATATGGCTGCC------CATCAC---GGT---GCTGGGGCCTTCTTTCGTTATATGAGACAACCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAACCGGAGCAACTGACAAATCCGAAAAAGTCGTGCAACAAAACTTTCAGCACCATGCATGAACTGGTGACCCACATCACAGTGGAACATGTTGGGGGACCAGAACAATCGAATCACATTTGTTTTTGGGAAGAGTGTTCGCGAGAAGGAAAGCCATTTAAAGCCAAGTACAAACTTGTAAATCATATCAGAGTGCACACCGGAGAAATGGTTGGAACAGCACTAAGCCTCTTAATTCGAGCAGAGCTTAGCCAACCAGGATCTCTTCTGGGCGATGATCAAATCTATAACGTCATCGTCACAGCGCACGCTTTTGTAATAATCTTCTTTATAGTAATGCCTATCCTCATTGGAGGGTTCGGGAACTGACTTGTCCCACTAATGATCGGGGCCCCAGACATGGCATTCCCTCGAATGAACAACATAAGCTTCTGGCTTCTTCCACCTTCGTTCCTTCTCCTCCTAGCATCGTCTGGAGTTGAAGCCGGAGCCGGAACAGGATGAACAGTCTACCCCCCACTAGCCGGAAATCTTGCTCACGCAGGAGCCTCCGTGGACTTAACAATTTTCTCTCTTCACCTAGCAGGGGTCTCTTCAATTCTTGGAGCAATTAATTTCATTACTACTATTATTAACATGAAACCCCCAGCCATCTCCCAATATCAAACACCTCTATTTGTTTGAGCCGTTCTCGTTACAGCCGTGCTTCTCCTTCTATCTCTTCCAGTGCTAGCCGCTGGAATTACGATGCTCCTGACAGATCGAAACCTTAATACAACATTCTTCGACCCGGCTGGAGGAGGAGACCCAATTCTGTACCAACACCTGTTCTGATTCTTTGGCCACCCAGAAGTCTACATCCTTATTCTTCCAGGGTTCGGGATGATTTCACACATCGTCGCCTACTACGCCGGGAAAAAAGAACCATTCGGATACATAGGAATGGTCTGGGCCATGATGGCAATCGGCCTCCTAGGCTTCATTGTCTGAGCCCACCACATGTTCACAGTTGGGATGGACGTAGACACCCGTGCATAC
98
Gonorhynchus greyi ACCAAGAGAGTCATCCAGTACTTTGCAAGTATTGCAGCCGCT------AGTGGGGTTGGAAAGAAGGA TACCAGTAAGGGAACCCTGGAGGATCAAATTATCCAGGCTAACCCTGCCCTGGAGGCCTTCGGAAATGCTAAAACGGTGAGAAATGACAATTCCTCTCGCTTTGGAAAGTTCATACGTATTCATTTTGGCACAAGTGGTAAATTGGCTTCTGCTGACATAGAGACCTACCTGCTTGAAAAATCTCGAGTAACTTTTCAGCTCAAAGCAGAGAGGAATTACCACATCTTTTTTCAGATTCTGTCCAATGAAAAGCCAGAGTTGCTAGACATGATGTTGGTTACGAATAATCCTTATGATTACTCCTACATCTCCCAAGGAGAAGTTACTGTTCAATCCATCAATGACAATGAAGAGCTATTAGCTACAGACAGTGCTTTTGATGTACTTGGCTTTACCTTGGAAGAAAAAATGGCGGTCTACAAGTTGACAGGTGCAATAATGCATTATGGCAACATGAAGTTTAAGCAGAAGCAGCGGGAGGAGCAAGCAGAACCAGATGGTACAGAGTCTGCCGACAAGTCAGCTTACCTAATGGGGCTAAACTCTGCAGATCTTGTAAAGGGACTCTGCCACCCGAGGGTCAAGGTCGGCAATGAATATGTCACAAAAGGGCAGAGTGTGGATCAAGTCTACTACAAAGCAGTGAGGTTCTCGTTCACGGTGATGTCCATCTCTGTTCATGCAGAAGGTAAGGAGGAAGCC------------------GTCACCATCTTCCAGGAGCGAAAGCCC AACTCCGAGCTKTCCTGCAGGCCTYTATGTCTGATGTTTGTYGAYGAGTCAGACCATGAGACGCTCACGGCCATCCTGGGCCCTGTGGTGGCTGAACGGAGAGCCATGAAAGAGAGCCGGCTGATCTTGTCTGTGGGGGGCTTGGAACGTTCCTTCAGGTTTCAGTTCCGGGGCTCAGGCTATGACGAAAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCYTCAGGGTCCACCTACGTCTGCACCTTGTGCGACTCCACCCGAGCTGAGGCTTCCAAGAACATGGTGCTGCACTCCATCACCCGAAACCATGACGAGAACCTTGAGCGCTACGAAGTGTGGAGGACCAACCCTTACTCTGAGTCTATTGAGGAGCTCAGAGACAGGGTCAAGGGTGTYTCAGCCAAGCCCTTCATGGAGACCCAGGCCACAATGGACGCTCTGCACTGYGACATCGGCAAYGCCACRGAGTTTTACAAGATCTTCCAAGATGAGATCGGAGARGTCTAT---------------CTGAGGAGCAACCCGAGCA GGGAAGAGCGACGTCGCTGGCGCTCTGCCCTGGACAAGCAGCTGAGGCAGAAGATGAAGCTCAAGCCAGTGATGCGGATGAATGGAAATTACGCCAGGCGACTGATGACCCAAGAGGCAGTAGATGTAGTCTGTGAATTGGTGCCATCAGAGGAACGGCAGCAGGCCCTCCGGGAGCTGGTGGAGCTCTACCTCCAGATGAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAAATCCGTTCGCCGACGGCATGGGCGCCTTCAAAATAAACCACAGCTCT------------CACGAC------CTAGGC---TCT------GGA---CAAAC AGCATTTTCC---TCGCAAGCTCCC---GGC---TAT------------GCTGCCGCTGCGCTGGGA------------CACCATCACCACCCGACT------CATGTCAGCTCA---TACTCCACAGCGGCT---------TTCAATTCTACCCGGGACTTTCTCTTTCGGAATCGGGGCTTTGGTGACGCTACC---AGTGC T---CAGCACAGTCTCTTCGCCTCAGCCGCG------GGAAGTTTCGCA---GGGCCACATGGACACT CTGATGCCGCA---GGACACCTGCTCTTCCCGGGACTGCACGAGCAAGCGGCAACGCAC------GCG TCTTCGAACGTAGTTAAC---AGCCAAATGCGGCTT---GGCTTT---TCGGGTGACATGTACGGAAG AGCTGAC------CAATACGGCCATGTTACGAGCCCCAGG------TCCGAG---CATTATGCCTCCA CACAGTTGCATGGCTATGGCCCC---ATGAACATGAATATGGCTGCC------CATCAC---GGT---GCAGGGGCCTTCTTTCGTTACATGAGGCAGCCGATTAAACAAGAACTCATCTGCAAGTGGATCGAACCTGAGCAGCTGACAAATCCGAAAAAGTCTTGCAACAAAACATTCAGCACGATGCACGAGCTGGTGACCCACCTCACAGTGGAACATGTCGGGGGACCAGAGCAGTCGAATCACGTTTGTTTTTGGGAAGAGTGTTCAAGAGAAGGAAAACCGTTCAAAGCAAAGTACAAACTTGTAAATCATATCAGAGTACACACCGGAGAGATAGTCGGCACAGCTCTAAGCCTCTTAATCCGGGCCGAGCTAAGCCAACCAGGCTCCCTATTAGGCGATGACCAAATCTATAACGTCATTGTCACGGCACACGCCTTCGTTATGATCTTCTTTATAGTGATACCCATTCTAATTGGGGGTTTCGGGAATTGACTAATTCCCCTCATGATTGGGGCCCCAGACATGGCCTTCCCTCGAATGAATAACATGAGTTTCTGACTACTTCCCCCCTCTTTCCTTCTTCTTTTAGCCTCCTCGGGGGTCGAAGCCGGGGCAGGGACCGGGTGAACTGTCTACCCACCCCTAGCCGGCAACCTCGCTCACGCAGGGGCCTCGGTAGACCTAACTATTTTCTCCCTCCACCTCGCGGGTGTATCCTCTATTCTAGGGGCTATTAACTTCATCACAACTATCATCAACATGAAACCTCCGGCTATTTCCCAATACCAAACTCCGCTATTCGTATGGGCGGTTCTAATTACGGCCGTGCTACTTCTTCTGTCCCTTCCAGTACTAGCTGCCGGCATTACCATACTTCTTACGGATCGAAATCTGAACACTACCTTCTTCGACCCAGCGGGGGGAGGAGATCCCATCCTCTACCAACACTTGTTTTGATTCTTCGGGCACCCCGAAGTTTATATTCTAATTCTACCCGGCTTTGGGATGATCTCCCACATCGTTGCTTACTACTCAGGTAAAAAAGAGCCGTTCGGCTACATGGGCATGGTCTGGGCTATGATGGCAATTGGCCTTCTAGGCTTCATTGTCTGAGCCCACCACATGTTTACAGTTGGAATGGACGTCGACACCCGGGCCTAC
99
Pimephales promelas ACCAAGAGGGTCATCCAGTATTTTGCAAGCATTGCTGCCGCT---GGTGGAGCGACTGGAAAGAAAGA CTCTAGCAAGGGGACCCTGGAAGATCAGATTATTCAGGCTAATCCTGCACTGGAGGCTTTTGGCAATGCTAAAACAGTCCGAAATGACAACTCATCTCGCTTTGGGAAATTCATCCGCATTCATTTCGGGACAAGCGGTAAACTCGCTTCGGCWGACGTCGAAACATACCTGCTGGAGAAGTCTCGGGTGACCTTTCAGCTGAAGTCCGAGAGGAACTACCAYATTTTCTTCCAAATCCTGTCCAATGAAAAGCCTGAACTGCTGGACATGCTGTTGATAACTAATAATCCATATGACTACTCTTACATCTCCCAAGGAGAAGTAACCGTCGCATCCATCAATGACAACGAGGAGTTGATTGCTACTGACCAGGCGTTTGATGTCCTTGGCTTCACATCTGAAGAAAAGATGGGCGTCTACAAGCTGACAGGTGCTATCATGCACTATGGCAATCTGAAATTCAAGCAGAAACAGCGTGAAGAGCAGGCAGAGCCTGAYGGTACTGAAGATGCAGATAAGGCAGCTTATCTAATGGGGCTGAACTCTGCTGACCTTCTCAAAGGAGTCTGCCATCCAAGGGTCAAGGTGGGCAATGAGTATGTTACTAAAGGACAGAGCGTGGACCAAGTCTACTACAAGGCAGTGAGGTTTTCCTTCACAATCATGTCCGTCTCCATCCGAGTTGAGGGTGAGGATGATGGC------------------ATCACCATCTTCCAAGAACCAAAGCCA AACTCTGAGCTCTCTTGTAGACCTTTGTGCCTCATGTTTGTGGATGAGTCCGACCACGAGACCCTGACGGCGATCTTGGGACCCGTGGTAGCAGAGCGGAAAGCCATGATGGAAAGTCGACTCATCATATCTGTCGGTGGCCTGCTACGCTCGTTTAGATTCTTCTTCCGGGGTACCGGCTACGATGAGAAGATGGTTCGTGAAATGGAAGGACTAGAAGCATCAGGCTCCACTTACGTATGCACACTCTGCGACTCAACCCGAGCTGAAGCCTCTCAAAACATGGTGCTTCATTCCGTCACACGTAGCCACGATGAAAATCTCGAGCGCTACGAGATCTGGAGGAAAAATCCTTTCTCGGAGTCCGCCGATGAACTCCGCGACCGGGTCAAAGGGGTTTCCGCGAAGCCTTTCATGGAGACCCTGCCTACTTTGGATGCCCTCCACTGCGACATTGGCAATGCGACTGAATTCTACAAGATCTTTCAGGATGAGATCGGCGAAGTCTAC---------------CAGAGGAGCAATCCGAGTC GTGAGGAACGCCGTCGTTGGCGGTCAACTCTGGACAAACAGCTAAGGAACAAACTGAAGCTCAAGCCTGTGATGAGGATGAACGGGAACTATGCGCGCCGGCTGATGACACGTGAGGCCGTGGAGGTGGTCTGTGAGTTGGTTCCTTCGGAGGAACGACGTGAGGCACTCAAGAGACTGATGGACCTCTACGTCCAGATGAAGGGCGAAGTTACAGACAGAGAAGTGGCTTTGGGTATCAATCCGTTCGCCGACGGTATGGGCGCTTTTAAAATCAACCACAGCTCC------------CACGAT------CTTGGC---TCT------GGC---CAAAC GGCGTTTTCC---TCGCAAGCCCCC---GGT---TAC---------GCCGCCGCCGCTGCCCTGGGA------------CACCATCATCACCCCACT------CATGTCAGCTCG---TACTCCACCGCCGCC---------TTCAACTCCACTCGGGACTTTCTCTTTCGCAATCGGGGGTTCGGAGACGCCACG---AGTGC G---CAGCACAGTCTCTTCGCCTCCGCCGCT------GGAAGTTTCGCC---GGGCCACATGGACACT CTGACGCCGCT---GGGCACCTGCTCTTCCCGGGACTGCACGAGCAAGCGGCCACGCAC------GCG TCCTCCAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCCGGGGACATGTACGGGAG GGCCGAG------CAATATGGTCACGTCGCGAGTCCGAGG------TCCGAG---CATTATGCGTCGA CTCAGTTGCACGGCTATGGCCCC---ATGAACATGAACATGGCTGCT------CATCAC---GGG---GCAGGGGCCTTCTTTCGGTACATGAGACAGCCCATAAAGCAAGAGCTCATCTGCAAATGGGTCGAACCGGAGCAGCTGACGAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGCTTGTGACCCACCTGACGGTGGAGCACGTTGGGGGACCAGAGCAGTCGAATCACATTTGCTTTTGGGAAGAGTGTCCCCGGGAAGGGAAACCGTTTAAAGCAAAGTATAAACTTGTGAATCACATTAGAGTGCACACCGGGGAGATAGTGGGGACCGCTTTAAGCCTCCTAATTCGAGCTGAACTAAGTCAACCTGGCTCACTTCTAGGTGATGACCAGATCTACAATGTTATTGTTACTGCTCACGCCTTTGTAATAATCTTCTTTATAGTAATACCAATTCTTATTGGTGGGTTTGGAAATTGACTTGTACCTCTAATAATCGGAGCACCTGACATGGCATTTCCACGAATAAATAACATAAGCTTCTGACTTTTACCCCCGTCATTCCTACTCCTCCTAGCCTCTTCTGGAGTTGAGGCCGGGGCCGGTACAGGGTGAACTGTTTATCCACCACTTGCAGGTAATCTTGCTCATGCAGGAGCCTCAGTAGACCTCACAATTTTCTCTCTACACTTAGCAGGTGTATCATCAATTCTAGGGGCAGTTAATTTTATTACTACAATTATTAACATAAAACCCCCAGCAATCTCTCAATATCAAACGCCCCTCTTCGTATGGGCCGTACTTGTAACTGCTGTGCTTCTGCTCCTATCACTACCTGTTCTAGCTGCCGGAATTACTATACTTCTCACCGATCGTAATTTAAATACTACATTCTTTGACCCTGCAGGAGGAGGTGACCCTATTTTATACCAACACTTGTTCTGATTCTTCGGCCATCCAGAAGTCTATATTCTTATTTTACCCGGGTTTGGAATTATTTCACATGTCGTAGCCTACTATGCAGGTAAAAAAGAACCATTCGGCTACATAGGAATAGTTTGAGCTATGATGGCAATCGGTCTCCTAGGGTTTATTGTCTGAGCCCACCACATGTTTACTGTTGGAATAGACGTAGACACCCGTGCCTAC
100
Catostomus commersoni ACTAAGAGAGTCATCCAATATTTTGCCAGCATCGCCGCCGCT---GGTGGAGCTGCTGGAAAGAAAGA CTCTAGCAAGGGAACCCTGGAGGATCAAATAATCCAGGCGAACCCTGCACTCGAGGCTTTTGGCAATGCCAAAACGTTGAGAAACGACAACTCGTCTCGCTTTGGAAAATTCATCCGCATTCATTTTGGGACAAGYGGTAAACTCGCCTCTGCTGATATTGAGACATACTTGTTAGAGAAGTCTCGTGTGACCTTCCAGCTAAAATCGGAGAGGAACTAYCACATCTTCTTCCAGATATTGTCCAATGAAAAGCCAGAACTACTGGACATGCTGTTGATCACCAATAACCCATATGACTATTCGTACATCTCCCAAGGAGAAGTAACTGTTGCATCAATCAATGACAACGAGGAGCTGATGGCTACTGATAAGGCCTTTGATGTACTCGGTTTCACTTTAGAAGAAAAGATGGGAGTCTACAAGCTGACAGGTGCCATCATGCACTACGGCAATATGAAATTCAAACAGAAACAGCGTGAAGAGCAGGCGGAGCCTGACGGTACGGAAAATGCAGATAAGGCCGCTTATCTAATGGGGTTGAACTCTGCCGACCTGCTCAAAGGACTCTGCCATCCAAGGGTCAAGGTAGGCAATGAGTACGTTACAAAAGGACAGAGTGTAGACCAAGTGTATNNNAAGGCAGTGAGGTTCTCCTTCACGGTCATGTCCATCTCCATCCGAGCTGAAGGTGAGGAGGAGGCC------------------GTCACCATCTTTCAGGAGCAGAAGCCA AACTCAGAGCTCTCCTGTAGGCCTTTGTGTCTCATGTTTGTGGATGAGTCAGACCACGAGACCCTCACAGCCATCTTGGGACCTGTGGTGGCAGAGCGGAAAGCCATGATGGAAAGTCGGCTAATTCTGTCTGTCGGTGGTCTTCAACGCTCCTTTAGGTTCATCTTCCGAGGGACAGGCTATGATGAGAAGATGGTACGGGAAATGGAAGGCCTAGAAGCTTCTGGTTCCACTTACATATGTACCCTCTGCGACTCAACTCGAGCCGAAGCTTCTAATAACATGGTGCTACATTCCATCACACGTAGCCACAATGAAAACCTTGAACGATACGAGATCTGGAGAACAAATCCATTCTCTGAGTCTGCCGAAGAGCTCCGTGACCGGGTCAAGGGTGCATCCGCCAAGCCTTTCTTGGAGACCCAGACCACCCTGGATGCCCTGCACTGTGACATTGGCAATGCGACTGAATTCTACAAGATCTTTCAGGATGAGATTGGCGAAGTCTAC---------------CAGAAAAGCAACCCAAGTC GAGAGGAGCGCCGTAGTTGGCGGTCAGCCCTGGACAAACAGCTGAGAAAGAAACTCAAACTCAAGCCTGTGATGAGGATGAACGGAAACTTTGCCCGTCGATTGATGACACGTGAGGCCATTGAGGTCGTCTGTGAGCTTGTTCCTTCCGAGGAACGTCGCGAGGCACTACAGAAGCTGATGGAACTCTACCTCCAGATGAAGGGCGAAGTTACAGACAGAGAAGTGGCTCTGGGCATCAATCCGTTCGCCGATGGCATGGGCGCTTTTAAAATCAACCATGGCACC------------CACGAT------CTAGGC---TCT------GGG---CAGAC GGCATTTTCC---TCGCAGGCGCCC---GGC---TAC---------GCCGCCGCTGCTGCCCTAGGA------------CACCATCACCACCCCACT------CATGTCAGCTCT---TACTCCACCGCCGCC---------TTCAACTCCACTCGGGACTTTCTCTTTCGGAACCGGGGCTTCGGAGACGCCACG---AGCGC G---CAGCACGGTCTGTTCGCCTCCGCTGCG------GGAAGTTTCGCC---GGGCCACACGGACACT CTGATGCCGCC---GGGCACCTGCTCTTTCCGGGACTGCACGAGCAAGCGGCCACGCAC------GCC TCCTCCAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCCGGGGACATGTACAGCAG GGCCGAG------CAATACGGCCACGTCGCGAGTCCCAGG------TCCGAA---CACTACGCCTCGT CCCAGTTGCACGGCTATGGCCCC---ATGAACATG------GCTGCC------CATCAC---GGG---GCAGGGGCCTTCTTTCGGTACATGAGACAGCCTATAAAGCAAGAGCTCATCTGCAAATGGGTCGAACCCGAGCAACTGTCAAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGCTCGTGACCCACCTGACGGTGGAGCACGTTGGGGGACCTGAGCAGTCGAATCACATTTGCTTTTGGGAAGAATGTCCCCGGGAAGGAAAACCGTTTAAAGCAAAGTACAAACTTGTTAATCACATTCGAGTGCACACCGGAGAGATAGTAGGAACCGCATTGAGCCTTCTAATTCGAGCCGAATTAAGTCAACCTGGATCACTTCTTGGTGATGATCAAATTTATAATGTTATTGTTACCGCCCACGCCTTCGTTATAATTTTCTTTATAGTAATACCTATCATGATCGGCGGGTTTGGAAACTGACTTGTACCATTAATGATCGGAGCCCCTGATATAGCATTTCCCCGGATAAATAACATAAGCTTCTGGCTTCTACCTCCCTCATTTCTCCTATTATTAGCCTCTTCTGGAGTTGAGGCTGGAGCGGGAACAGGGTGAACAGTATATCCCCCACTTGCGGGTAATCTTGCCCACGCCGGAGCCTCTGTAGACTTAACCATCTTTTCTCTTCACCTGGCAGGTGTTTCATCAATTCTTGGAGCAATTAACTTTATTACCACAACAATTAACATAAAACCCCCAGCCATCTCTCAATATCAAACACCCCTGTTCGTGTGAGCTGTACTTGTAACAGCTGTTCTCCTCCTCTTATCATTACCTGTCCTAGCCGCAGGAATTACTATGCTACTAACAGACCGAAATTTAAATACAACATTCTTTGACCCTGCGGGAGGAGGAGACCCAATCCTTTACCAACACTTATTTTGATTTTTCGGCCACCCAGAAGTATATATTCTTATTTTACCCGGATTTGGAATCATTTCTCACGTCGTAGCCTATTATGCTGGTAAAAAAGAACCATTTGGATATATGGGTATGGTATGAGCTATAATGGCCATTGGCCTTTTAGGTTTTATTGTATGGGCTCATCACATGTTTACTGTCGGAATAGACGTAGACACTCGTGCCTAC
101
Colossoma sp. ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------GCCGGAGCCAAGAGGGA TACCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACAYTGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAGGAGTTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGGCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAGGGCGGTGAGGTTCTCTTTTACGGTGATGTCCATCACAGTTCAAGCGGAAGGTGAGGAAGAAGCA------------------GTCACAATCTTCCAGGAGCAAAAACCC AACTCGGAGCTCTCTTGCAGGCCCCTGTGCCTGATGTTCGTGGATGAATCTGATCACGAGATGCTGACTGCCATCTTGGGTCCTGTAGTGGCAGAACGTAGAGCTATGAAGGAGAGCCGCCTCATTTTGTCCATAGGTGGGCTTCTTCGTTCTTTTCGCTTTTACTTCCGAGGCACAGGCTACGATGAGAAGATGGTCAGAGAAATGGAAGGGTTGGAGGCTTCAGGCTCCACTTACATCTGCACCCTGTGTGACTCCACACGAGCTGAAGCCTCTCAGAACATGGTGCTGCACTCTATCACTCGAAGCCATGAGGAAAACCTTGAGCGCTATGAGATTTGGAGAACCAACCCTTTCTCTGAGTCTGCAGACGAACTGCGGGATCGAGTTAAAGGTGTCTCAGCTAAGCCTTTTATGGAGACCCAGGCCACGCTGGATGCCTTGCACTGTGACATTGGCAATGCTACAGAGTTCTACAAGATATTCCAAGATGAGATCGGCGAAATGTAC---------------CTAAAAAACAATCCAACTC GAGAGGAGCGCCGACGCTGGCGATCAGCCCTTGACAAGCAGCTGAGGAAGAAGATGAAGCTGAAGCCAGTGATGAGGATGAATGGAAACTATGCCCGGCGGCTGATGACCCGTGAGGCCATGGAGGTGGTGTGTGAGCTGGTTCCTTCAGAGGAGCGTCGCAAGGCATTGAGAGAGCTGATGGAGCTGTATCTCCAGATGAAG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTTGGAACGGCCCTCAGCCTCTTAATTCGAGCGGAGCTAAGCCAACCCGGATCCCTCTTAGGTGATGACCAGATCTATAATGTTATCGTTACTGCGCACGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGAGGCTTCGGGAATTGATTAGTCCCCCTAATGATTGGCGCACCCGACATAGCATTCCCCCGAATAAATAATATAAGCTTCTGACTCCTACCCCCGTCCTTCCTTCTCCTGCTAGCATCCTCAGGAATCGAAGCCGGAGCAGGGACAGGCTGAACTGTATACCCCCCTCTTGCCGGTAACCTCGCACACGCGGGCGCCTCTGTTGACTTAACTATCTTTTCACTCCATCTTGCTGGGGTTTCTTCCATCCTTGGGGCTATTAACTTCATTACAACTATTATTAACATGAAGCCTCCAGCCATTTCACAGTATCAAACACCCCTATTCGTGTGAGCAGTCCTAATCACTGCCGTTCTTCTTCTTCTCTCGCTACCAGTTCTGGCTGCTGGAATTACCATACTTCTGACAGATCGAAACCTTAACACCACATTCTTTGACCCCGCAGGGGGAGGAGACCCAATTCTCTACCAACATTTATTCTGATTCTTTGGGCACCCTGAAGTTTACATTCTAATTTTACCAGGCTTTGGAATAATTTCTCACATCGTAGCCTACTACTCAGGAAAAAAAGAACCTTTTGGCTATATGGGAATGGTTTGGGCTATAATAGCAATTGGCCTATTAGGCTTTATCGTATGGGCCCATCACATGTTTACAGTTGGAATGGACGTAGACACCCGAGCATAC
102
Noturus gyrinus ACCAAGAGAGTTATCCAGTATTTTGCAAGTATTGCAAGTGCTGGTGGAGCAAGTGCGGGTAAGAAAGATTCTAACAAAGGGACACTGGAAGATCAAATCATCCAGGCCAACCCTGCACTAGAGGCTTTTGGCAATGCCAAAACAGTAAGAAATGACAACTCATCTCGTTTTGGAAAGTTCATTCGCATTCATTTTGGAACAAGTGGTAAACTATCTTCAGCTGACATTGAAACATACCTGCTGGAAAAATCACGAGTGACCTTTCAGCTAAAGGCAGAAAGAAACTATCACATCTTCTACCAGATACTGACCAATGCAAAGCCTGAGCTGTTGGATATGCTGCTGATTACAAATAATCCATATGATTACTCTTACATCTCCCAAGGAGAAATATCTGTTCAATCAATCAATGATAGTGAGGAGTTAATGGCCACTGACAATGCATTTGATGTGCTTGGTTTCACACCAGATGAGAAGACGGGAGTCTACAAACTGACAGGAGCCATCATGCATTATGGCAACATGAAATTCAAGCAGAAACAGCGAGAAGAACAAGCAGAACCAGATGGTACAGAAGCGGCTGACAAGTCAGCATACCTTATGGGGCTGAACTCTGCTGATCTCCTGAAAGGACTCTGTCATCCACGGGTTAAGGTAGGCAATGAATATGTCACAAAAGGCCAAGGTGTGGATCAAGTATACTACAAGGCAGTGAGATTTTCTTTTACAGTGATGTCTATCACTATTCAAGCTGAAGGTGAAGAGGAAGCA------------------GTCACGATCTTTCAGGAAAAAAAGCCT AATTCTGAGCTTTCCTGTAGGCCGCTGTGCCTCATGTTTGTGGATGAGTCTGATCATGAGATACTGACGGCCATCTTAGGACCTGTGGTGGCAGAGCGTAAAGCTATGAAGGAGAGTCGCCTCATTCTCTCTATAGGTGGGCTCCAACGCTCTTTCCGCTTTTATTTTAGGAGCACAGGCTATGATGAAAAAATGGTGAGAGACATGGAAGGTTTGGAGGCTTCAGGCTCCACTTACATCTGCACCCTCTGTGACTCAACACGAGCTGAAGCCTCTCAGAACATGGTACTTCACTCCATCACTAGAAGCCATGATGAAAATCTTGAGCGCTATGAGATATGGAGAACTAACCCTTTTTCTGAGTCTGCAGAGGAGCTTCGGGATCGAGTCAAAGGGGTCTCAGCCAAGCCTTTCATGGAGACACAACCCACATTAGATGCCTTGCACTGTGACATTGGCAATGCTACTGAATTCTATAAGATCTTCCAGGATGAAATTGGTGAAGTGTAC---------------TTGAAAAACAACCCAACTC GAGATGAGCGCAGACGCTGGCGGTCAACCCTTGACAAGCAGTTGAGAAAGAAGATGAAGCTTAAACCAGTGATGAGAATGAATGGGAACTATGCCCGGCGACTTATGACCCGTGAGGCTGTTGAAGTGGTGTGTGAGCTAGTTCCTTCAGAGGAGCGCCGTGAGGCTCTGAAAGAACTAATGGAGCTGTACATCCAGATGAAA???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTTGGCACCGCCCTTAGCCTGCTTATCCGAGCAGAGTTAGCTCAGCCCGGGGCCCTTCTAGGCGACGATCAAATTTATAATGTAATTGTTACCGCTCATGCCTTCGTAATAATTTTCTTTATAGTGATACCAGTGATAATTGGAGGATTCGGCAACTGGCTCGTGCCCCTAATAATTGGGGCCCCAGACATAGCCTTCCCCCGAATAAATAACATAAGCTTTTGACTCCTCCCTCCCTCCTTCCTCCTACTTCTTGCCTCTTCGGGGGTTGAAGCTGGGGCCGGAACAGGATGGACTGTATATCCCCCCCTTGCCGGAAACCTTGCCCATGCAGGAGCCTCTGTAGATTTAACCATCTTCTCCCTCCACCTCGCAGGAGTCTCATCTATTCTGGGGGCCATCAATTTTATTACAACCATTATCAACATAAAACCCCCCGCAATCTCACAATACCAAACACCCTTATTCGTATGAGCCGTTTTAATTACAGCTGTCCTTCTACTTTTATCCCTCCCAGTACTCGCCGCCGGCATCACAATACTTTTAACCGATCGGAATCTAAATACCACATTCTTTGACCCCGCAGGCGGGGGGGACCCAATCCTCTACCAACACCTTTTCTGATTCTTCGGCCACCCAGAAGTATATATCTTAATCTTACCAGGTTTTGGCATGATTTCCCATATTGTTGCCTACTACGCCGGTAAAAAAGAACCATTCGGCTACATAGGAATGGTGTGAGCTATAATGGCCATTGGCCTTCTAGGCTTTATCGTATGAGCCCATCACATGTTCACCGTAGGAATAGACGTAGACACCCGAGCATAC
103
Ictalurus punctatus ACCAAGAGAGTTATCCAGTATTTTGCAAGTATTGCAAGTGCTGGTGGAGCAAGTGGGGGTAAGAAAGATTCTAACAAAGGGACACTGGAAGATCAAATCATCCAGGCCAACCCTGCACTAGAGGCTTTTGGCAACGCCAAAACAGTGAGAAATGACAACTCATCTCGTTTTGGAAAGTTCATTCGCATTCATTTCGGAACAAGTGGTAAACTATCTTCAGCTGACATTGAAACATACCTGCTGGAAAAATCACGAGTGACCTTTCAGCTAAAGGCAGAAAGAAACTATCACATCTTTTACCAGATTCTGACCAATGCAAAGCCTGAGCTGTTGGATATGCTGCTGATTACAAATAATCCATATGATTACTCTTACATCTCCCAAGGAGAAATATCTGTTCAATCCATCAATGATAGCGAGGAGTTAATGGCCACTGACAATGCATTTGACGTGCTTGGCTTCACCCCAGATGAGAAGGCGGGAGTCTACAAACTGACAGGAGCCATCATGCATTATGGCAACATGAAATTCAAGCAGAAACAGCGAGAAGAACAGGCAGAACCAGATGGTACAGAAGCTGCTGACAAGTCAGCCTACCTTATGGGGCTGAACTCTGCTGATCTCCTGAAAGGACTCTGTCATCCACGGGTTAAGGTAGGCAATGAATATGTCACAAAAGGCCAGGGTGTGGATCAAGTATACTATAAGGCAGTGAGATTTTCGTTTACAGTGATGTCTATCTCTATTCAAGCTGAAGGTGAAGAGGAAGCA------------------GTCACTATCTTCCAGGAAAAAAAGCCT AACTCCGAGCTTTCCTGTAGGCCGCTGTGCCTCATGTTTGTGGATGAGTCTGATCATGAGATACTGACGGCCATCTTGGGACCTGTGGTGGCAGAGCGTAAAGCTATGAAGGAGAGTCGCCTCATTCTCTCTATAGGTGGGCTCCAACGCTCCTTCCGCTTTTATTTTAGGAGCACAGGCTATGATGAAAAAATGGTGAGAGACATGGAAGGTTTGGAGGCTTCAGGCTCCACTTACATCTGCACTCTCTGTGACGCAACACGAGCTGAAGCCTCTCAGAACATGGTGCTTCACTCCATCACTAGAAGCCATGATGAAAATCTTGAGCGCTATGAGATATGGAGAACGAACCCTTTTTCTGAGTCTGCAGAGGAGCTTCGGGATCGAGTCAAAGGGGTCTCAGCCAAGCCTTTCATCGAGACACAACCCACATTAGATGCCTTGCACTGTGACATTGGCAATGCTACTGAATTCTATAAGATCTTCCAGGATGAAATTGCTGAAGTGTAC---------------TTGAAAAACAACCCAACTC GAGAAGAGCGCAGACGCTGGCGGTCAGCCCTTGACAAGCAGTTAAGAAAGAAGATGAAGCTAAAACCAGTGATGAGAATGAATGGGAACTATGCCCGGCGACTTATGACCCGTGAGGCTGTTGAAGTGGTGTGTGAGCTAGTTCCTTCAGAGGAGCGCCGTGAGGCTCTGAAAGAACTAATGGAGCTGTACCTCCAGATGAAAGGCGAAGTGGCGGACCGCGAAGTGGCTTTGGGGATCAATCCGTTCGCAGACGGCATGGGTGCGTTCAAAATCAACCACGGCTCA------------CATGAG------CTCAGT---TCCGCC---GGC---CAGGC AGCGTTCTCC---TCGCAGGCGCCCGCCGGG---TAC---------GCGGCCGCGGCCGCCCTGGGAC ACCACCATCATCACCATCACCACGCGACC------CACGTTGGCTCG---TACTCCACGGCGGCAGCT GCGGCGTTCAATTCTACGCGGGACTTTCTCTTCCGGAACCGGGGCTTCGGAGATGCGACA---GGCGC G---CAACACAGCCTCTTCGCTTCTGCCGCC------GGTAGCTTCGCG---GGGCCGCACGGGCACT CGGACGCCGCC---GGGCACCTGCTTTTCCCAGGACTGCACGAGCAAGCAGCGACGCACGCATCCGCC TCGAGT---GTGGTGAAC---GGTCAGATGCGCCTG---GGGTTT---TCCGGCGACGTGTACGGTCG GGCTGAG------CAGTACGGCCACGTGGCGAGCCCCAGG------TCCGATCCACACTATGCCTCAA CGCAGCTACACGGCTACGGCCCC---GTGAACATGAACATGGCTGCA------CATCAC---GGC---GCCGGTGCCTTCTTCCGTTACATGAGGCAACCGATCAAGCAAGAGCTCATCTGCAAATGGATCGAGCCGGAGCAGCTCAGCAACCCGAAAAAGTCCTGCAACAAAACTTTCAGTACCATGCACGAGCTCGTCACTCACCTGACCGTGGAGCATGTCGGCGGACCCGAGCAGTCAAATCACGTCTGTTTTTGGGAAGAATGCGCACGGGAAGGGAAACCGTTCAAGGCCAAATATAAGCTCGTGAACCATATCAGAGTGCACACCGGAGAGATAGTGGGTACCGCCCTTAGCCTGCTTATCCGGGCGGAATTAGCCCAACCCGGCGCCCTTCTAGGCGATGACCAAATTTACAATGTTATTGTTACTGCTCACGCCTTTGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGAGGGTTTGGAAACTGGCTTGTTCCCCTAATGATCGGAGCGCCAGATATGGCCTTCCCTCGAATGAACAATATAAGCTTCTGGCTCCTGCCCCCCTCCTTCCTACTTCTGCTCGCCTCCTCCGGAGTTGAAGCAGGAGCAGGAACAGGGTGAACTGTATACCCGCCTCTTGCCGGCAACCTCGCACATGCAGGAGCCTCCGTAGATTTAACTATCTTTTCCCTACATCTTGCAGGAGTTTCATCTATTCTTGGGGCCATTAACTTTATTACAACAATTATTAACATGAAGCCCCCCGCAATCTCACAATATCAAACCCCCCTATTTGTCTGAGCCGTCCTAATTACAGCCGTCCTCCTACTACTATCCCTCCCAGTTTTAGCCGCTGGTATCACAATACTTCTAACAGACCGAAACTTAAATACTACCTTCTTTGACCCCGCAGGGGGAGGCGACCCCATTCTTTACCAACACCTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
104
Plotosus lineatus ACCAAGAGAGTAATCCAGTATTTTGCGAGTATTGCAGCTGCTGCTGGAGCAAGTGTGGGAAAGAAGGACTCTAACAAAGGGACACTGGAAGATCAAATCATCCAGGCCAACCCTGCATTAGAGGCTTTTGGCAATGCCAAAACCTTGAGAAATGACAACTCATCGCGCTTTGGAAAGTTCATTCGCATTCATTTTGGAACAAGTGGTAAACTTTCTTCAGCTGACATTGAAACATATCTGTTGGAGAAATCTCGTGTGACCTTTCAGCTAAAAGCAGAAAGGAACTATCATATCTTTTACCAGATATTGACCAACGCAAAGCCAGAACTGTTGGACATGCTACTGATTACAAATAATCCATATGATTACTCTTACATCTCCCAAGGAGAGGTAACTGTTCCATCCATCAATGATAGCGAGGAGTTAATGGCCACTGACAGTGCATTCGATGTGCTGGGTTTCACCCAAGAAGAGAAGATGGCAGTCTACAAACTGACAGGAGCTATCATGCATTATGGCAACATGAAATTCAAGCAGAAACAGAGAGAAGAGCAGGCAGAACCAGATGGTACAGAAGCTGCAGATAAGTCAGCCTACCTAATGGGCCTGAACTCTGCTGATCTCCTGAAAGGACTCTGTCACCCAAGAGTTAAGGTAGGCAATGAATATGTCACAAAAGGACAAGGTGTGGATCAAGTATACTACAAGGCAGTGAGATTTTCTTTTACGGTGATGTCCATCACCATTCAGGCTGAAGGTGAAGAGGAAGCA------------------GTCACTATTTTCCAAGAGCAAAAGCCT AACTCTGAGCTTTCCTGCAGGCCACTATGCCTCATGTTCATTGATGAGTCTGATCATGAGATGCTGACGGCCACCTTGGGACCTGTGGTGGCGGAGCGTAAAGCTATGAAAGAAAGTCGCCTGATTCTTTCAATTGGTGGGCTCCAACGATCCTTCCGCTTTTTTTTTAGAAGTACAGGCTTTGATGAAAAGATGGTAAGAGACATGGAAGGATTGGAGGCTTCAGGCTCTACTTATATCTGCACCCTGTGTGACTCCACACGAGCTGAAGCCTCACAGAACATGGTGCTTCACTCCATCACTAGAAGCCACGATGAAAATCTTGAGCGTTATGAGATATGGAGAACTAACCCTTTCTCTGAGTCTGCAGAGGAGCTGCGGGACCGAGTCAAAGGGGTCTCAGCCAAGCCTTTCATGGAAACACAACCCACAATGGATGCCTTGCATTGTGACATTGGCAATGCTACAGAATTCTATAAGATCTTCCAGGATGAGATTGCTGAAGTGTAC---------------TTGAAAAGCAACCCATCTC GAGAAGAACGCAGATGCGCGCGGTCAGCCCTTGACAAGCAGTTGAGAAAGAAGATGAAGTTAAAGCCAGTGATGAGAATGAATGGGAATTATGCACGGCGTCTTATGACCCGTGAAGCTGTGGAAGTGATTTGTGAGCTGATTCCCTCAAAGGAGCGCCAAGAGGCTCTGAAAGAACTAATGGAGCTGTATCTCCAGATGAAANNNNNNNNNNNNNNNNNNNNNGTGGCTTTGGGGATCAATCCGTTCGCAGATGGCATGGGCGCGTTCAAAATCAACCACGGCTCG------------CATGAA------CTTGGT---TCCGCC---GGC---CAGGC TGCCTTCTCC---TCGCAGGCGCCCGCAGGG---TAC---------GCGGCCGCGGCCGCCCTGGGAC ACCACCRCCATCACCATCACCACGCGACC------CACGTTGGCTCG---TACTCCACGGCGGCGGYT GCGGCGTTCAATTCAACGCGGGACTTTCTCTTCAGGAACCGGGGCTTCGGAGACGCGACA---GGCGC A---CAACACAGCCTTTTCGCCTCGGCGGCC------GGTAGCTTCNCG---GGCCCCCACGGGCACA CGGACGCCGCC---GGGCACCTGCTTTTCCCGGGACTGCACGAGCAAGCAGCGACGCACGCATCCGCC TCGAGC---GTGGTGAAC---GGCCAGATGCGCCTG---GGCTTT---TCCGGCGACATGTACGGACG CGCTGAG------CAGTACGGCCACGTGGCGAGTCCCAGG------TCCGACCCACACTACGCTTCGA CGCAGCTACACGGCTATGGGCCG---GTCAACATGAACATGGCTGCA------CATCAC---GGC---GCCGGTGCCTTCTTCCGTTACATGAGGCAGCCGATCAAGCAAGAGCTCATCTGCAAATGGATCGAACCGGAGCAGCTCAGCAACCCGAAAAAGTCCTGCAACAAAACTTTCAGCACCATGCACGAGCTCGTCACTCATCTGACCGTGGAGCACGTCGGCGGTCCCGAACAATCCAATCACATCTGTTTTTGGGAAGAGTGTCAACGGGAAGGCAAACCGTTCAAGGCCAAATATAAACTGGTCAACCACATCCGAGTGCACACCGGAGAGATGGWGGGCACAGCCCTAAGCCTACTAATTCGAGCAGAACTAGCTCAACCAGGMTCATTCCTAGGCGATGACCAAATTTATAACGTCATCGTCACCGCGCATGCCTTCGTAATAATTTTCTTTATAGTAATGCCAGTTATGATTGGGGGCTTTGGAAACTGATTAGTGCCACTAATAATTGGGGCACCAGATATAGCATTCCCCCGAATAAATAATATAAGCTTCTGACTACTCCCCCCCTCATTTTTACTCTTACTAGCCTCCTCAGGGGTTGAAGCCGGAGCTGGAACAGGATGAACTGTTTACCCCCCTCTCGCTGGTAATATTGCACACGCGGGTGCTTCTGTAGACTTAACTATCTTCTCCCTACACCTCGCCGGAGTGTCATCTATCTTGGGCGCCATCAACTTCATCACAACTATTATTAACATAAAACCCCCAGCCATTTCCCAGTATCAAATGCCTCTATTCGTTTGATCTGTACTAATCACAGCCGTCCTCCTCCTTTTATCACTACCAGTATTGGCCGCTGGCATCACAATACTACTAACAGACCGAAACTTAAATACAACATTCTTCGACCCCGCGGGCGGGGGCGACCCCATCCTTTATCAACATCTTTTCTGATTCTTTGGGCACCCTGAAGTATACATCTTAATCCTGCCAGGATTTGGAATAATCTCACACATCGTAGCATACTACTCAGGCAAAAAAGAACCATTCGGCTATATGGGAATAGTATGGGCTATAATAGCAATCGGCCTTCTAGGGTTTATTGTATGAGCTCACCACATATTTACAGTGGGAATAGACGTAGACACTCGAGCATAC
105
Arius felis NNNAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------GCAGGAGCAAAGAGGGA TACCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAGGAGTTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGGCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCAGTGAGATTTTCTTTTACAGTGATGTCCATCACTGTTCAAGCTGAAGGTGAAGAAGAAGCA------------------GTCACTATCTTCCAGGAGCAAAAGCCT AACTCTGAGCTTTCCTGCAGGCCCCTGTGCCTCATGTTCGTGGATGAGTCTGATCATGAAATGCTGACAGCCATCTTGGGACCTGTGGTGGCAGAGCGTAAAGCTATGAAGGAGAGTCGACTCATTCTTTCTATAGGTGGGCTCCAACGTTCCTTCCGCTTTTATTTTAGGAGCACAGGCTATGATGAAAAGATGGTGAGAGACATGGAAGGTTTGGAAGCTTCGGGTTCCACTTACATCTGCACCCTGTGTGACTCCACACGAGCTGAAGCCTCTCAGAACATGGTGCTTCACTCCATCACAAGAAGCCATGATGAAAATCTTGAGCGCTATGAGATATGGAGAACTAACCCTTTTTCTGAGTCTGCAGAGGAGCTACGGGATAGAGTCAAAGGGGTCTCAGCCAAGCCTTTCATGGAGACACAACCCACATTAGATGCCTTGCACTGTGACATTGGCAATGCTACTGAATTCTATAAAATCTTCCAGGACGAGATTGCTGAAGTGTAC---------------TTGAACAACAACCCAACTC GAGAAGAGCGCAGACGTTGGCGGTCAGTCCTTGACAAGCAGCTGAGAAAGAAGCTGAAGATAAAACCAGTGATGAGAATGAATGGGAACTATGCCCGTCGACTTATGACTCGTGAAGCTGTTGAAGTGGTGTGTGAGCTGGTTCCATTAGAGCAGCGTCGTGAGGCTTTGAAGGAACTAATGGAGCTGTATATCCAGATGAAA???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????NNNNNNNNNNNNNNNNNNNNNCTGTTAATTCGAGCTGAACTAGCCCAACCCGGTGCCCTCCTAGGCGATGACCAAATTTATAATGTTATTGTTACCGCCCATGCTTTTGTAATAATTTTCTTTATAGTAATACCAATCATGATCGGAGGCTTTGGGAACTGACTTGTCCCCCTAATAATTGGAGCCCCCGACATAGCATTCCCTCGAATAAATAATATAAGCTTTTGGTTACTCCCTCCATCTTTCCTACTTCTCCTTGCCTCATCAGGAGTTGAAGCAGGAGCAGGAACAGGATGAACTGTTTACCCTCCTCTTGCTGGTAACCTCGCTCACGCAGGGGCCTCCGTAGACCTTACTATTTTTTCTCTTCACCTAGCAGGGGTATCATCAATTCTAGGGGCCATTAACTTTATCACAACTATTATTAACATGAAACCCCCAGCCATTTCACAATATCAAACACCCCTATTTGTTTGAGCCATTCTAATTACTGCTGTGCTCTTACTTCTTTCTCTCCCAGTTTTAGCTGCCGGTATTACTATGCTACTAACAGACCGAAACCTAAATACTACTTTCTTTGATCCCGCAGGAGGAGGAGATCCAATTCTTTACCAACATCTCTTTTGATTCTTTGGCCACCCAGAAGTATATATCCTTATTTTACCAGGATTTGGGATAATTTCTCACATTGTAGCCTACTATTCAGGTAAAAAAGAACCATTTGGCTACATAGGAATGGTATGAGCTATGATGGCTATTGGCCTTCTAGGCTTCATCGTATGGGCCCATCACATATTTACAGTAGGAATAGATGTAGACACCCGAGCNNNN
106
Apteronotus albifrons NNNNNNNNNGTAATACAATATTTTGCAAGTATTGCAGCTGCG---GGTGGAAGTGCTAGCAAGAAAGA CTCCAACAAGGGCACCCTAGAGGATCAAATAATCCAAGCTAACCCTGCACTGGAAGCTTTTGGCAATGCAAAAACAGTGAGAAATGACAACTCCTCACGCTTTGGGAAGTTCATCCGCATTCATTTTGGAACAAGTGGCAAACTTTCGTCAGCTGACATTGAGACATACCTGCTGGAAAAGTCACGTGTGACTTTTCAACTAANATCAGAAAGGAACTATCATATCTTCTTCCAGATACTGTCCAATGAAAAGCCTGAACTGCTGGACATGCTTTTGATTACAAACAACCCCTATGACTACTCTTACATCTCCCAAGGAGAGGTAACCGTTGCATCCATTAATGATAACGAGGAATTGATTGCCACTGACAATGCGTTTGATGTGCTTGGCTTTACACCAGATGAGAAAATGGGAGTGTACAAACTAACTGGTGCCATCATGCACTATGGTAACATGAAATTCAAGCAGAAGCAGCGTGAGGAGCAAGCAGAACCTGATGGCACCGAAGTTGCAGACAAATCAGCCTACCTAATGGGTCTGAATTCTGCTGATCTCCTGAAAGGCCTCTGTCATCCAAGGGTCAAGGTAGGCAATGAGTATGTCACAAAAGGCCAAAGTGTGGATCAAGTGTACTACAAGGCAGTGCGATTCTCTTTCACAGTGATGTCCATCTCCATTCAAGCAGTGGATGAGGAGGAAGCA------------------GTCACCATCTTCCAGGAACAAAAGCCC AATTCAGAATTTTCCTGCAGACCCCTATGCATCATGTTTGTGGATGAGTCCAATCACGAGATGCTGACTACCATCTTGGGGCCTGTGGTAGCAGAGCGTAAAGCTATGACAAACAGTCGCCTCATTCTTTCTATAGGCGGTCTCCTTCGTTCCTTTCGGTTTTACTTCCGGGGCACTGGCTATGATGAGAAAATGGTGAGAGAAATGGAAGGCCTAGAGGCCTCAGGCTCCACCTATATCTGCACCCTGTGTGACTCTACAAGAGCTGAAGCCTCTCAGAACATGGTGTTGCATTCTATCACCCGCAGCCACGATGAAAACCTTGAGCGTTACGAGATCTGGAGGACCAACCCTTTTTCTGAGTCTGCAGAGGAGCTGCGAGATCGGGTCAAAGGTGTCTCAGCCAAGCCCTTTATGGAGACCCATCCCACATTAGATGCCCTGCACTGTGACATTGGCAATGCTACCGAGTTCTACAAGATCTTCCAAGATGAGATTGGGGAGCTGTAC---------------CTGAAGAAAAACGCATCCC GAGAGGAACGCCGTTGTTGGCGCTCAGCCCTTGACAAGCAGTTAAGGAAGAAGCTGAAGCTGAAGCCAGTGATGAGGATGAACGGGAATTACGCACGGCGACTCATGACCCGCAATGCTGTGGAGGCGGTGTGCGAGCTCGTTCCTTCAGAGGAGCGTCGYGAAGCTCTCAAGGAGCTGATGGAGCTGTATCTCCAGATGAAGGGCGAAGTTACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTTGCCGACGGTATGGGCGCTTTTAAAATCAACCACAGTTCC------------CATGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCGCAGGCACCC---GGC---TAC------------GCAGCCGCAGCCTTGGGA------------CACCATCACCACCCCACT------CATGTCAGTTCT---TATTCCACCGCGGCT---------TTCAACTCGACCCGGGACTTTCTGTTTCGGAACCGAGGCTTCGGAGACGCCACC---AGCGC G---CAGCACAGTCTTTTCGCCTCCGCAGCT------GGAAGTTTCGCG---GGCCCACATGGACACT CCGATGCTGCT---GGACACCTGCTTTTCCCGGGACTGCACGAGCAAGCGGCGACGCAC------GCG TCCTCGAACGTGGTGAAC---AGTCAGATGCGCTTA---GGTTTT---TCCGGAGACATGTACGGTAG GGCAGAT------CAGTACGGCCATGTCACGAGCCCCAGA------TCAGAG---CACTACACGTCGG CACAGTTACACGGCTACGGCCCC---ATGAACATGAACATGGCTGCT------CATCAC---GGT---GCTGGGGCCTTTTTCCGTTACATGAGGCAACCGATCAAACAAGAGCTCATCTGCAAGTGGATTGAACCGGAGCAACTWACTAACCCGAAAAAGTCATGCAACAAAACTTTCAGCACCATGCACGAGCTTGTGACCCATCTCACCGTGGAACACGTTGGGGGACCAGAGCAATCGAATCATGTTTGTTTTTGGGAAGAATGTTCCCGGGAAGGAAAACCATTTAAAGCAAAATATAAACTTGTAAATCATATCAGAGTTCACACCGGAGAGATAATTGGTACTGCTCTTAGCTTGTTAATTCGAGCAGAGCTTAATCAACCGGGTACCCTTCTAGAAGACGACCAAATCTACAACGTAGCTGTTACCGCCCATGCCTTCGTAATAATTTTCTTTATAGTTATGCCAATTATGATTGGAGGCTTCGGCAACTGACTTATCCCATTAATAATTGCTGCGCCAGACATGGCATTTCCACGAATAAACAACATAAGTTTCTGACTCCTCCCACCATCATTCTTCCTGCTCCTCGCTTCTGCCGGTTTAGAGGCCGGAGTTGGAACAGGCTGAACCCTATACCCCCCTCTTGCCGGTAATGCGGCACACGCCGGGGCTTCTGTAGACCTAACCATCTTCTCCCTTCACCTGGCCGGTGTCTCCTCTATTCTAGGCTCTATTAATTTTATTACCACAATTATTAACATGAAGCCCCCAACAATATCTCAATATCAACTTCCATTATTTATTTGATCCTTATTAGTAACCACTGTTCTTCTACTTCTCTCCCTCCCCGTCCTAGCTGCTGGCATTACCATACTTCTCACAGACCGAAATTTAAACACAGCATTCTTCGACCCCACAGGAGGAGGAGACCCAATCCTATATCAACACCTATTCTGATTCTTCGGTCACCCAGAAGTTTACATCCTCATTCTCCCCGGATTTGGAATAGTTTCTCATATTGTAGCCTACTACTCCGGCAAAAAAGAACCATTTGGTTACTTAGGAATAGTCTGAGCCATAATGGCCATTGGGCTTCTAGGCTTCATCGTATGAGCTCACCACATGTTCACTGTCGGAATAGACGTAGATACCCGCGCCTAC
107
Argentina striata ACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCGGCAGTT---------AGTGGTGCTAAGAGGGA TCCAAGCAAGGGTACCCTAGAGGATCAAATCATCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACATTAAGAAATGATAATTCATCACGTTTTGGCAAATTCATCCGTATTCATTTCGGACAAAGTGGCAAATTGTCCTCTGCTGACATAGAGACTTATCTGCTTGAGAAGTCACGTTGCACCTTTCAGCTGAAAGCGGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATGAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAACTGATTGCCACTGACAGTGCCTTTGATGTGCTGGGCTTTACTGCAGAAGAGAAAATGGGGGTCTACAAGTTGACAGGTGCCATCATGCACTATGGCAACATGAAGTTCAAGAACAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCAGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCAGCAGATCTTATTAAAGGACTGTGCCATCCAAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAGAGTGTAGATCAAGTCTACTACAAGGCTGTGCGCTTCTCCTTTACCATCATGTCTGTCTCGGTCCAGGCTGAAGGAGAGGAGGAGGTG------------------GTCACCATCTTCCGGGAGCCCAAGCCG AACTCTGAACTGTCCTGTAAGCCACTGTGCCTGATGCTTGTGGACGAGTCAGACCACGAGACACTCACGGCAGTCCTAGGCCCTGTGGTGGCCGAACGGAACGCTATGAAGCACAGCCGGCTCATTCTGTCCCTGGGTGGGCTCCCTCGCTCCTTCCGCTTCCACTTCAGAGGAACGGGTTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCTGGCTCCACCTACATTTGCACCTTGTGTGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCATGATGAGAACCTGGAGCGCTATGAGTTGTGGAGGACCAACCCCTTCTCCGAGTCCGCAGAAGAGCTGCGGGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGATGCCCTGCACTGCGACATCGGCAACGCCACTGAGTTTTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTAC---------------CGCAGCCCCAACCCCAGAC GAGAGGAGCGGCGGATGTGGAGGGCTGCTCTGGACAAGCAGCTGAGGAAGAAGATGAAGTTGAGGCCGGTGATGCGTATGAACGGGAACTACGCACGGCGGCTGATGACCGAGGAGGCAATAGAGGTAGTGTGTGAGCTAGTGCCGTCAGAGGAGAGGCGAGAGGGCCTAAGGGAGCTGATGGGGCTC---------------G GCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTTAAAATCAACCACAGCTCT------------CATGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCCTTGGGA------------CATCATCACCATCCGACC------CATGTCAGCTCC---TACTCCACCGCCGCT---------TTCAATTCCACTCGGGACTTTCTTTTTCGAAATCGGGGCTTCGGAGACGCGACC---AGCGC C---CAACACAGTCTGTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCGAGCCAT------GCG TCCTCCAATGTTGTAAAC---AGTCAGATGCGATTG---GGTTTT---TCGGGGGACATGTACGGGCG GGCTGAC------CAATATGGCCATGTTACGAGCCCACGT------TCCGAC---CACTACGCTTCGA CCCAGTTGCATGGCTATGGCCCC---ATGAACATGAATATGGCCGCA------CACCAY---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAGCCGGAGCAGTTGTCGAACCCGAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTGACAGTGGAACATGTGGGGGGACCAGAGCAGTCGAACCATATNTGCTTTTGGGAAGAGTGTTGCCGAGAAGGAAAACCATTCAAAGCTAAATACAAACTTGTAAATCATATCAGAGTGCACACCGGAGAAATGGTCGGCACAGCTTTAAGCCTCCTAATCCGGGCCGAGCTCAGCCAGCCCGGGGCCCTCTTAGGGGATGACCAGATTTACAATGTTATTGTGACAGCACATGCCTTCGTCATAATCTTCTTTATAGTAATGCCAATCATAATCGGTGGCTTTGGAAACTGATTAATCCCCTTAATAATCGGAGCCCCCGATATAGCATTCCCCCGAATGAATAATATAAGCTTCTGGCTCCTCCCTCCCTCCTTCCTCCTCCTCTTAGCTTCCTCTGGGGTTGAAGCTGGGGCTGGAACAGGTTGAACAGTATACCCTCCCTTGGCAGGAAACCTTGCCCATGCAGGGGCTTCCGTTGATCTAACTATCTTTTCCCTTCACCTTGCTGGCATCTCCTCAATCCTTGGAGCAATTAACTTCATTACAACCATCATTAATATGAAGCCCCCCGCCATCTCCCAATACCAAACCCCCCTGTTTGTCTGGGCAGTTTTAATTACAGCAGTTCTCCTCCTCCTTTCACTCCCTGTCCTGGCCGCAGGTATTACTATGCTACTCACGGATCGGAATTTAAACACCACCTTCTTTGACCCCGCCGGAGGGGGAGACCCAATCTTATACCAACACTTGTTCTGATTCTTCGGCCACCCTGAAGTTTATATTCTCATTCTGCCGGGCTTCGGCATAATCTCCCATATTGTTGCTTACTACTCAGGAAAAAAAGAACCTTTTGGTTATATAGGAATAGTCTGAGCAATAATAGCTATTGGACTTCTAGGCTTTATCGTCTGAGCTCACCACATATTTACGGTGGGAATAGATGTAGACACTCGAGCCTAC
108
Dolichopteryx sp. ACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCAGCAGTT---------AGTGGGGCTAAGAGGGA TCCAAGCAAGGGTACCCTAGAGGATCAAATCATCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGATAACTCATCACGTTTTGGCAAATTCATCCGTATTCATTTCGGACAGAGTGGCAAATTGTCCTCTGCTGACATAGAGACTTATCTGCTTGAGAAGTCACGCTGCACCTTCCAGCTGAAATCAGAGAGGAACTACCATATCTTCTTTCAGATCTTATCCAATCAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAATCCATACGACTACGCCTACATCTCCCAAGGAGAGGTGACAGTAGCGTCCATCAACGATTCTGAGGAGCTGATGGCCACTGACAGTGCCTTTGACGTGCTGGGCTTTACTGCAGAGGAGAAAATGGGGATCTACAAGTTGACGGGTGCCATAATGCACTACGGCAACATGAAGTTCAAGAACAAACAGCGGGAGGAGCAGGCGGAGCCTGACGGTACAGAGGCTGCCGACAAGTCAGCTTATCTAATGGGACTGAACTCTGCAGATCTTATTAAAGGACTGTGCCATCCAAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGCCAGAGTGTAGATCAAGTCTACTACAAGGCTGTGCGCTTCTCCATCACTGTCATGTCTGTCTCTGTCCAGGCTGAAGGAGAGGAGGAGGCA------------------GTCACCATCTTCCGGGAGCCCAAGCCG AACTCCGAACTGTCCTGTAAGCCACTGTGCCTGATGCTAGTGGATGAGTCGGACCACGAGACACTCACGGCAGTCCTAGGGCCTGTGGTGGCCGAGCGGAACTCCATGAAGCACAGCCGCCTCATTCTGTCCCTGGGAGGACTCCCTCGCTCCTTCCGCTTCCACTTCAGAGGAACGGGTTATGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCTGGCTCCACCTACATCTGCACCTTGTGTGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCGTCACCCGCAGCCATGACGAGAACCTGGAGCGCTATGAGTTGTGGAGGACCAACCCCTTTTCAGAGTCCGCAGAGGAGCTGCGGGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGATGCCCTGCACTGCGACATCGGTAACGCCACTGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTAC---------------CGCAGCCCCAACCCCAGAC GGGAGGAGCGGCGGAGCTGGAGGGCCGCTCTGGACAAGCAGCTGAGGAAGAAGATGAAGTTGAGGCCGGTGATGCGTATGAACGGGAACTACGCACGGCGGCTGATGACCCGGGAGGCAATAGAGGTGGTTTGTGAGCTGGTGCCGTCAGAGGAGAGGCGAGAGGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGGRCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTTAAAATCAACCACAGCTCT------------CATGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCT---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCCTTGGGA------------CATCATCACCATCCGACC------CATGTCAGCTCC---TACTCTACCGCTGCT---------TTCAATTCCACCCGGGACTTTCTTTTTCGAAATCGGGGCTTCGGAGATGCGACC---AGCGC C---CAACACAGTCTGTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCGAGCCAT------GCG TCCTCCAATGTTGTAAAC---AGTCAGATGCGATTG---GGTTTT---TCTGGAGACATGTACGGGCG GGCTGAC------CAATATGGCCATGTTACGAGCCCACGG------TCCGAC---CACTACGCTTCGA CCCAGTTGCATGGCTATGGCCCC---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAGCCGGAGCAGTTGTCGAACCCGAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTGACAGTGGAGCATGTGGGGGGACCAGAGCAGTCAAACCATATTTGCTTTTGGGAAGAGTGTTGCCGAGAAGGAAAACCATTCAAAGCTAAATACAAACTTGTAAATCATATCAGAGTACACACCGGAGAAATGATCGGCACAGCCTTAAGCCTCTTAATTCGGGCTGAACTAAGCCAGCCCGGAGCCCTGCTGGGAGACGACCAAATTTATAATGTAATCGTAACAGCACATGCTTTCGTCATAATCTTCTTTATAGTAATACCAATTATAATCGGCGGCTTTGGAAACTGACTAATCCCACTAATAATTGGAGCTCCCGATATAGCATTCCCCCGAATAAACAATATAAGCTTCTGACTTCTCCCCCCCTCCTTTCTCCTTCTACTGGCCTCTTCCGGTGTCGAGGCCGGAGCAGGGACCGGCTGAACAGTGTACCCCCCCTTAGCAGGAAACCTTGCACATGCAGGAGCCTCTGTAGATTTAACTATTTTTTCTCTCCACCTTGCCGGAATCTCCTCAATTCTCGGGTCCATTAACTTTATCACAACTATTATTAACATGAAACCCCCGGCCATCTCCCAGTATCAGACTCCCCTTTTTGTCTGAGCCCTGCTTATTACTACCGTCCTCTTACTCCTTTCCCTTCCTGTGCTAGCCGCAGGGATCACTATACTACTCACGGACCGAAATTTAAACACTACTTTCTTTGACCCTGCAGGAGGGGGGGACCCTATTCTTTACCAACATCTATTCTGATTCTTCGGCCACCCAGAAGTCTATATCTTAATTCTCCCCGGCTTCGGCATAATTTCCCATATCGTCGCCTATTACTCCGGAAAAAAAGAACCTTTCGGTTACATAGGCATGGTTTGAGCAATAATGGCCATTGGCCTCCTGGGCTTCATTGTTTGAGCCCACCATATATTCACAGTCGGAATGGACGTAGACACCCGTGCCTAC
109
Nansenia longicauda ACCAAGAGAGTTATCCAATATTTTGCCAGCATTGCGGCAGCT---------GCTGGGCTTAAGAGGGA TCCAAGCAAGGGTACCCTAGAGGATCAAATCATCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGATAATTCATCACGTTTTGGCAAATTCATTCGTATTCATTTCGGACAAAGTGGCAAATTGTCCTCTGCTGACATAGAGACGTATCTGCTTGAGAAGTCACGTTGCACCTTTCAGCTGAAATCGGAGAGAAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAGTTGATTGCCACTGACAGTGCTTTTGATGTGCTGGGCTTTACTGCAGAGGAGAAAATGGCGGTCTACAAATTGACAGGTGCCATAATGCACTATGGCAACATGAAGTTCAAGAACAAGCAACGGGAGGAGCAGGCAGAGCCTGATGGTACAGAGGCTGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCTGCAGATCTTATTAAAGGATTGTGCCATCCGAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAGAGTGTCGATCAAGTCTACTATAAAGCCGTGCGCTTCTCCATCACCATCATGTCTGTCTCTGTCCAGGCTGAAGGAGAGGAGGAGGCG------------------GTCACCGTCTTCCGGGAGCCCAAGCCC AACTCCGAACTGACCTGTAAGCCGCTGTGCTTGATGCTCGTGGACGAGTCGGACCACGAGACGCTCACGGCGGTCCTGGGGCCTTTGGTGGCCGAGCGGAACGCCATGAAGCACAGCCGGCTCATCCTGTCCCTGGGCGGGCTCCCTCGCTCCATCCGCTTCCACTTCAGAGGGACGGGTTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCCGGCTCCACCTATATCTGCACCTTGTGTGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGACGAGAACCTGGAGCGCTACGAGTTGTGGAGGACCAACCCCTTCTCTGAGTCCGCAGAGAAACTGCGAGACCGGGTCAAAGGCGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACGCTGGACGCCCTGCACTGCGACATTGGCAATGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGTAC---------------CGCTGCCCCAACCCCAGAC GAGAGGAGCGTCGGGGCTGGAGAGCCACGTTGGACAAGCAGCTGAGGAAGAAGATGAAGCTGAGGCCAGTGATGCGAATGAACGGGAACTATGCGCGGCGTCTGATGACCCGGGAGGCGATAGAGGTGGTGTGTGAGCTGGTGCCATCAGAGGAGAGGCGAGAGGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGGGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCT------------CATGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAAGCTCCC---GGC---TAC------------GCAGCCGCCGCCTTGGGG------------CATCATCACCACCCGACC------CATGTCAGCTCT---TACTCCACCGCCGCT---------TTCAATTCCACCCGGGACTTTCTTTTTCGAAATCGGGGCTTCGGAGACGCGACC---AGCGC C---CAACACAGTCTGTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCTGGACTTCACGAGCAAGCCGCGAGCCAC------GCG TCCTCCAATGTTGTAAAC---AGTCAGATGCGATTG---GGTTTT---TCGGGGGACATGTACGGGCG GGCTGAC------CAATATGGCCATGTTACGAGCCCACGG------TCCGAC---CACTACGCYTCGA CCCAGTTGCACGGCTATGGTCCC---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTCCGTTACATGAGACAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAGCCGGAGCAGTTGTCGAACCCGAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTGACAGTGGAACATGTGGGGGGACCAGAGCAGTCGAACCATATTTGCTTTTGGGAAGAGTGTTGCCGAGAAGGAAAACCGTTCAAAGCTAAATACAAACTTGTAAATCATATCAGAGTACACACCGGAGAAGATGGTTGGACGGCCTTAAGCCTTTTAATCCGGGCCGAGCTAAGCCAACCGGGAGCCCTCCTGGGGGACGACCAAATCTATAATGTTATCGTAACAGCACATGCTTTCGTTATAATCTTTTTTATAGTGATGCCAATCATGATCGGCGGCTTTGGAAACTGATTAATTCCCCTAATGATCGGGGCCCCTGACATAGCCTTTCCCCGAATAAATAATATGAGCTTCTGACTTCTACCCCCCTCTTTCCTTCTTCTCCTAGCTTCTTCTGGGGTTGAAGCCGGAGCCGGGACAGGTTGAACAGTATACCCCCCTCTAGCAGGAAACCTTGCCCACGCAGGGGCCTCCGTAGACCTGACCATCTTCTCCCTCCACCTCGCCGGTATCTCTTCGATCCTCGGGGCCATTAACTTCATTACAACAATTATCAACATGAAACCCCCAGCCATCTCCCAGTACCAGACTCCCCTATTCGTCTGAGCAGTACTCATTACAGCAGTTCTTCTGCTCCTTTCTCTCCCCGTACTAGCTGCAGGTATTACCATGCTATTAACAGACCGAAACTTAAACACCACTTTCTTTGACCCCGCAGGGGGAGGGGACCCCATCCTCTACCAACATCTGTTCTGGTTCTTTGGTCACCCTGAAGTCTATATTTTAATCCTCCCCGGCTTCGGTATAATCTCCCACATTGTTGCTTACTACTCCGGTAAAAAAGAACCTTTCGGCTACATAGGCATGGTTTGAGCAATGATGGCTATCGGGCTCCTAGGCTTTATTGTCTGAGCCCACCATATGTTCACCGTCGGAATGGACGTAGACACTCGTGCCTAC
110
Bathylagus longirostris ACCAAGAGAGATATCCAGTATTTTGCCAGCATTGCGGCAGCT---------GGAGGGGCTAAGAGGGA TGCAAGCAAGGGCACCCTAGAGGATCAAATCATCCAGGCTAACCCTGCACTCGAGGCTTTTGGTAACGCCAAAACAGTGAGGAATGATAATTCATCACGTTTTGGCAAATTCATCCGTATTCATTTTGGACAAAGCGGCAAATTGTCCTCTGCTGACATAGAGACTTATCTGCTTGAGAAGTCACGTGTTACCTTTCAGCTGAAATCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACCTGCTGTTGATCACCAACAATCCTTATGACTATGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAGCTGATGGCCACTGACAGTGCTTTTGATGTGCTGGGCTTTACTGCAGAGGAGAAAATGTCAGTCTACAAACTGACAGGTGCCATAATGCACTATGGCAACATGAAGTTCAAGAACAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCTGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCTGCTGATCTTACTANNNGACTATGCCATCCCAGAGTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGGCGGTGCGCTTCTCCATCACCGTCATGTCCGTCTCCGTCCAGGCCGAAGGAGAGGAGGAGGCG------------------GTCACCATCTTCCGGGAGTCCAAGCCC AACTCTGAGCTGACCTGTAAGCCGCTGTGCTTGATGCTTGTGGATGAGTCGGACCACGAGACACTCACGGCAGTCCTGGGGCCCCTGGTGGCCGAGCGCAACGCCATGAAGCACAGCCGGCTCATCCTGTCCCTGGGCGGCCTCCCGCGCTCCATCCGCTTCCTCTTCAGAGGAACGGGTTATGACGAGAAGATGGTGCGTGAGATGGAGGGTCTGGAGGCCTCTGGCTCCACCTATATCTGCACCTTGTGCGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACGCGCAGCCACGACGAAAACCTGGAGCGCTACGAGCTGTGGAGGACCAACCCCTTCTCGGAGTCCGCGGAGGAGCTGCGAGACCGGGTCAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACGCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTAC---------------CGCAGGCCCAACCCCAGCC GGGAGGAGCGGCGGAGTTGGAGGGCCACCCTGGACAAGCAGCTGAGGAGGCAGATGAAGCTGAGGCCGGTGATGCGGATGAACGGGAACTACGCCCGGCGGCTGATGACGCGGGAGGCGGTGGAGGCGGTGTGTGAGCTGGTGCCGTCGGAGGAGAGGCGAGATGCCCTGAGGGAGCTGATGGGCCTCTACCTCCAGATGAAGGGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCCGACGGGATGGGCGCGTTCAAAATCAACCACAGCTCG------------CATGAT------CTCGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAAGCTCCG---GGC---TAC------------GCGGCCGCTGCGTTGGGA------------CACCACCACCACCCGACC------CATGTCAGCTCC---TACTCCACCGCCGCG---------TTCAATTCCACACGGGACTTTCTTTTTCGAAATCGGGGCTTCGGAGACGCGACC---AGCGC C---CAACACAGCCTGTTCGCCTCCGCAGCG------GGAACTTTCGCA---GGGCCCCACGGACACT CCGATGCCGCG---GGACACCTGCTCTTCCCGGGACTCCACGAGCAAGCCGCGAGCCAC------GCG TCCTCCAACGTTGTAAAC---AGTCAGATGCGCTTG---GGGTTT---TCGGGGGACATGTACGGGCG GGCTGAC------CAGTACGGCCATGTGACGAGCCCGCGG------TCCGAC---CACTACGCGTCGA CCCAGTTGCATGGTTATGGCCCC---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAGCCGGAGCAGTTGTCGAACCCGAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTGGTGACCCACCTGACCGTGGAACATGTGGGGGGGCCGGAGCAGTCGAACCATATTTGCTTTTGGGAAGAGTGCTGCCGAGAAGGAAAACCCTTCAAAGCTAAATACAAACTTGTAAATCATATCAGAGTACACACCGGAGAGATAGTGGGCACAGCCTTAAGCCTCTTAATCCGGGCGGAACTTAGCCAACCGGGAGCCCTTCTAGGTGACGACCAGATCTACAATGTAATTGTAACAGCACATGCATTCGTAATAATCTTCTTTATAGTCATGCCAATCATGATTGGCGGCTTCGGAAACTGATTAATCCCTCTTATGATCGGGGCCCCTGACATAGCCTTCCCACGAATAAACAACATAAGCTTCTGACTCCTTCCCCCTTCCTTCCTTCTCCTTCTGGCCTCCTCTGGTGTTGAAGCGGGAGCAGGGACAGGATGAACTGTCTACCCACCCCTAGCAGGCAACCTCGCTCACGCAGGGGCCTCTGTAGACTTAACTATCTTCTCCCTCCACCTCGCCGGAATCTCCTCAATTCTAGGGGCAATCAACTTCATCACAACAATTATCAACATAAAACCCCCGGCCATCTCCCAGTATCAGACCCCTCTMTTCGTCTGAGCTGTCCTAATCACAGCCGTCCTTCTCCTTCTCTCCCTTCCCGTCTTAGCCGCAGGAATTACTATACTTCTTACAGACCGCAACCTGAATACCACCTTCTTCGACCCTGCCGGAGGGGGTGACCCCATCCTCTACCAACACCTATTCTGGTTCTTCGGCCACCCTGAGGTCTATATCTTGATCCTCCCTGGCTTCGGCATGATTTCCCATATTGTTGCCTACTATTCCGGCAAAAAAGAACCCTTCGGCTACATAGGCATGGTCTGAGCAATGATGGCCATTGGTCTTCTGGGCTTCATTGTCTGAGCCCACCACATATTTACTGTCGGCATGGACGTGGACACTCGTGCCTAC
111
Leuroglossus stilbius ACCAAGAGAGTTATTCAGTACTTGGCCAGCATTGCAGCAGTT---------CCCGGAGCCAAGAGAGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCTTGGAGGCTTTTGGTAATGCCAAAACATTGAGGAATGACAACTCGTCACGCTTTGGAAAATTCATCAGGATTCACTTCGGAACCAATGGCAAGCTGTCCTCAGCTGACATAGAGACTTATCTTCTGGAAAAGTCACGTGTCACCTTCCAACTCAAGTCAGAAAGGAATTACCATATCTTCTTTCAGATCTTGTCTGAAAAAAAGCCAGAGCTGTTGGACATGCTTCTGATCACCAACAACCCATATGACTACTCGTACATCTCCCAAGGAGAGGTAACAGTAGCATCTATCAATGATGCTGATGAGTTGATGGCCACCGACAGTGCCTTTGATATCCTTGGCTTTACTCAAGAGGAGAAAAACGGGGTCTACAAGTTGACTGGAGCTATCATGCATTTTGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGGCTGATGGCACTGAGGCGGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTATGTCACCAAAGGGCAGGGCGTAGATCAAGTCTACTACAAGGCTGTCCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCTGGCCGAGGGGGAGGAGGAAGCG------------------GTCACCGTCTTCAGAGAGCCCAAGCCC AATTCCGAGATGTCCTGCAAACCTCTCTGTCTGATGTTTGTGGACGAGTCGGACCACGAGACCCTGACGGCCATCTTGGGGCCTGTGGTGGCCGAGAGGAAGGCCATGAAGAACAGCCGCCTCATCCTGCCCATGGGCGGCCTCCCTCGCTCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGACGAAAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCTTCAGGCTCCACCTACGTCTGCACCCTCTGCGACGCCACCAGAGCTGAGGCCTCCCGAAACATGGTGCTGCACTCAGTCACCCGCAGCCACGACGAGAACCTGGACCGTTACGAGTTGTGGAGGACCAACCCGTACGGCGAATCGGCGGACGAGCTGCGAGACCGGGTGAAAGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACAATGGACGCGCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCAT---------------TGCAGGCCCAACCCGAGCA GGGAGGAGCGTCGGAGCTGGAGGGCGGCTCTGGACAAGCAGCTCAGGAAGAAGATGAAGCTGAAGCCCGTGATGAGGATGAACGGCAACTTCGCCCGGCGACTGATGACGGCGGAGGCGGTGGAGGCAGTGTGCGAGCTGGTGCCGTCGCAGCAGCGGAGCGAAGCCCTCAGGGAGCTGATGAACCTCTACATCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGTGCTTTCAAAATCAACCACAGTTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC TGCATTTTCC---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CATCACCACCACCCGACT------CATGTCAGCTCT---TACTCTACGGCGGCT---------TTCAATTCCACCCGGGATTTTCTCTTCAGAAATCGAGGCTTCGGAGACGCTACC---AGCGC T---CAGCATAGTCTCTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GCCCCACATGGACACT CAGATGCAGCG---GGACACCTGCTCTTCCCAGGACTTCACGAACAAGCCGCGAGCCAT------GCT TCCTCAAATGTTGTTAAT---AGTCAGATGCGATTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAC------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCG------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGACAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAACTAACGAACCCGAAAAAGTCGTGCAACAAAACTTTTAGCACAATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGAGGACCGGAGCAGTCGAACCACATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATAGTAGGGACGGCTTTAAGCCTCCTTATCCGAGCCGAGCTGAGCCAACCTGGCGCTCTTCTGGGGGACGACCAGATTTATAATGTTATCGTCACCGCACACGCTTTTGTTATAATCTTTTTTATAGTAATACCCATCATGATCGGAGGGTTCGGCAACTGGCTAATTCCTCTTATGATCGGGGCCCCGGACATGGCGTTCCCACGCATAAATAACATGAGTTTCTGACTTTTACCTCCCTCTTTCCTTCTCCTCTTAGCCTCCTCCGGGGTAGAAGCAGGAGCCGGTACCGGCTGAACAGTTTACCCGCCACTTGCTGGCAATCTCGCTCACGCGGGAGCTTCCGTAGATTTAACCATCTTTTCCCTCCACCTTGCGGGTATCTCCTCTATTCTAGGGGCCATTAATTTTATTACAACTATTATTAACATGAAACCTCCTGCTATTTCTCAGTACCAAACTCCTTTATTTGTTTGAGCTGTGCTAATTACAGCCGTTCTTCTTCTACTGTCCCTTCCTGTCTTAGCCGCTGGAATTACAATGCTTCTGACAGACCGAAATCTAAACACCACTTTCTTTGACCCTGCTGGGGGAGGAGATCCTATTCTATATCAGCATTTATTCTGATTCTTCGGGCACCCCGAAGTCTACATCCTGATTCTCCCCGGATTTGGGATAATCTCGCATATTGTAGCCTACTACTCCGGTAAAAAAGAACCATTCGGGTACATGGGCATGGTNTGAGCTATGATGGCTATTGGCCTTCTCGGATTTATTGTTTGAGCCCATCATATGTTTACTGTAGGCATGGACGTAGACACTCGAGCATAC
112
Normichthys operosus ACCAAGCGAGTCATCCAGTACTTTGCTAGTATTGCGGCTGTT---------GCTGGAGTGAAGAAGGA TGCCAGCAAAGGGACCTTGGAGGATCAAATCATTCAAGCTAACCCAGCACTGGAGGCTTTTGGCAATGCCAAAACAGTGAGAAATGACAACTCCTCACGCTTTGGGAAGTTCATTCGTATTCATTTTGGAACGAGCGGCAAACTCTCCTCTGCTGACATAGAAACTTACTTGCTTGAGAAATCCCGTGTGACCTTTCAGCTCAAATCGGAGAGGAACTACCACATCTTCTTCCAGATATTGTCCAATGAAAAGCCAGAGCTGCTGGACATGCTGTTGATTACCAACAACCCTTATGATTATTGCTTCATCTCCCAAGGAGAAGTAACAGTTAAATCTATCAATGACAGTGAGGAGTTGCTTGCCACTGACAGTGCCTTTGATGTGCTTGGCTTCACTCCAGAGGAGAAGATGGGGATCTATAAGTTGACAGGTGCCATTATGCACTATGGCAACATGAGGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCAGCTGACAAGTCAGCCTACCTGATGGGGCTTAACTCTGCTGATCTTGTGAAGGGACTCTGCCATCCCAGGGTCAAAGTCGGCAATGAGTATGTAACAAAGGGACAAGGTGTAGATCAAGTCTATTACNNNGCTGTGCGCTTCTCCTTCACGGTGATGTCCGTCTCYGTCCAGGCCGAGGGCAAGGACGAGGCG------------------GTCACCATCTTCCTGGAGCCGAAGCCC AACTCCGAGCTGTCCTGCAAGCCGCTGTGCCTGATGTTCGTGGAYGAGTCGGACCACGAGATGCTCACGGCCATCCTGGGACCTGTGGTGGCCGAGCGGAAGGCCATGACGGAGAGCCGGCTGATCCTGTCCGTGGGCGGGCTGCCGCGCKCCTTCCGCTTCCACTTCCGGGGCACGGGMTACGACGAGAAGATGGTGCGGGAGATGGAGGGCCTGGAGGCGTCAGGCTCCACCTACGTCTGCACGCTGTGYGACKCCACGCGCGCCGAGGCCTCGCGCAACATGGTGCTGCACTCCATCACCCGCAGCCACGGCGAGAACCTGGAGCGCTACGAGATCTGGMGGACCAACCCCTTCTCCGAGTCCGCCGACGAGCTGCGCGACCGGGTCAAAGGCGTCTCGGCCAAGCCCTTCCTGGAGACCCAGACCACGCTGGACGCYYTGCACTGTGACATCGGCAACGCCACGGAATTCTACAAGATCTTCCAGGACGAGATCGGCGAGGTTTAC---------------CTGAAGAGCAGCCCGAGCC GCGAGGAGCGCCGGCAGTGGCGGGCCGCCCTGGACAAGCAGCTGAGGACGAGGATGAAGCTGAAGCCCGTGATGCGGATGAACGGGAACTACGCCCGCCGGCTGATGACCCGCGAGGCCGCGGAGGTCGTSTGCGAGCTGGTGCCGTCRGAGGAGCGSSGCGAGGCCCTGCGGGAGCTTGTGAGGCTCTACCTCSAGATGAAGGGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCCGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCC------------CACGAT------ATTGGC---TCT------GGT---CAAAC GGCGTTTGCC---TCGCAGGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCATCACCACCCAACC------CATGTCAGCTCC---TACTCCACCGCGGCG---------TTCAACTCCACCCGGGACTTTCTCTTTCGGAATCGGGGATTCGGAGACGCCACT---AGCGC G---CAGCACAGTCTCTTCGCCTCAGCTGCG------GGAAGTTTCGCT---GGGCCACATGGACACA CCGATGCCACG---GGACACCTGCTCTTCTCGGGACTGCACGAGCAAGCGGCGACCCAC------GCG TCTTCGAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAG------CAATATGGTCACGTAACGAGCCCCCGG------TCCGAG---CACTACGCTTCGA CTCAGTTGCACGGCTACGGCCCC---ATGAACATGAATATGGCTGCC------CACCAC---GGG---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAACCAGAGCAGCTGTCGAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACGATGCATGAGCTCGTGACCCACCTCACAGTGGAACATGTCGGGGGACCGGAACAGTCGAATCACATTTGCTTTTGGGAAGAGTGTCCGCGAGAAGGGAAACCATTTAAAGCCAAGTACAAACTTGTAAATCATATCAGAGTGCACACCGGAGAGATAGTCGGCACAGCCCTTAGCCTCCTAATTCGAGCTGAACTAAGCCAACCCGGGGCTCTTCTGGGCGACGACCAAATTTATAATGTCATCGTCACTGCACACGCCTTCGTAATGATTTTCTTTATGGTAATACCAATCATGATTGGTGGCTTTGGAAACTGGCTGCTCCCCTTAATATTGGGGGCCCCCGATATAGCATTCCCCCGAATAAATAACATAAGCTTCTGGCTCCTACCTCCCTCCCTACTCCTCCTTTTGTCGTCTTCCGGGGTTGAAGCCGGGGCCGGAACAGGGTGGACCGTTTATCCCCCGCTAGCCGGCAACCTGGCCCACGTAGGTGCCTCTGTAGACCTCGCTATTTTCTCCCTTCACCTGGCAGGTGTTTCCTCCATCCTGGGATCAATTAATTTTATTACCACAATTATTAACATGAAGCCCCCCGCTATCTCCCAATACCAAACACCTTTATTTATCTGATCGGTCCTCGTTACAACGGTCCTCCTCCTCCTATCACTACCGGTCCTGGCCGCAGGTATTACCATGCTCCTCACAGACCGAAATCTTAACACAACATTCTTTGACCCGGCCGGAGGAGGAGACCCCATCCTTTACCAGCACCTATTCTGATTTTTTGGCCACCCAGAAGTCTACATTTTAATCTTGCCCGGGTTTGGCATCATCTCACACGTTGTTGCCTACTACTCCGGCAAAAAAGAACCATTTGGATACATAGGCATGGTCTGAGCCATGATAGCCATTGGGCTCCTGGGCTTTATTGTCTGGGCCCACCACATGTTTACTGTCGGAATGGACGTAGACACCCGTGCCTAT
113
Sagamichthys abei ACCAAGCGAGTCATCCAGTACTTTGCTAGTATTGCGGCTGTT---------GCTGGAGTGAAGAAGGA TGCCAGCAAAGGGACCTTGGAGGATCAAATCATTCAAGCTAACCCAGCACTGGAGGCTTTTGGCAATGCCAAAACAGCGAGAAATGACAACTCATCACGCTTTGGGAAGTTCATTCGTATTCATTTTGGAACGAGCGGCAAACTCTCCTCTGCTGACATAGAAACTTACTTGCTTGAGAAATCCCGTGTGACCTTTCAGCTCAAATCGGAGAGGAACTACCACATCTTCTTCCAGATATTGTCCAATGAAAAGCCAGAGCTGCTGGACATGCTGTTGATTACCAACAACCCTTATGATTATTGCTTCATCTCCCAAGGAGAAGTAACAGTTAAATCTATCAATGACAGTGAGGAGTTGCTTGCCACGGACAGTGCCTTTGATGTGCTTGGCTTCACTCCAGAGGAGAAGATGGGGATCTATAAGTTGACAGGTGCCATTATGCACTATGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCAGCTGACAAGTCAGCCTACCTGATGGGGCTTAACTCTGCTGATCTTGTGAAGGGACTCTGCCATCCCAGGGTCAAAGTCGGCAATGAGTATGTAACAAAGGGACAAGGTGTAGATCAAGTCTATTACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATTACTATTCAAGCTGAAGGTGAAGAGGAAGCA------------------GTCACGATCTTTCAGGAAAAAAAGCCT AATTCTGAGCTTTCCTGTAGGCCGCTGTGCCTCATGTTCGTGGATGAGTCTGATCATGAGATACTGACGGCCATCTTAGGACCTGTGGTGGCAGAGCGTAAAGCTATGAAGGAGAGTCGCCTCATTCTCTCTATGGGTGGGCTCCAACGCTCTTTCCGCTTTTATTTCAGGAGCACGGGCTATGATGAAAAAATGGTGAGAGACATGGAAGGCTTGGAGGCGTCAGGCTCCACTTACATCTGCACCCTCTGTGACTCCACACGAGCTGAGGCCTCTCACAACATGGTACTTCACTCCATCACTAGCAGCCATGATGAAAATCTGGAGCGCTATGAGATATGGAGAACTAACCCTTTCTCTGAGTCTGCAGAGGAGCTTCGGGACCGAGTCAAAGGGGTCTCAGCCAAGCCCTTCATGGAGACACAACCCACGTTAGAYGCCCTGCACTGTGACATTGGCAATGCTACTGAGTTCTACAAGATCTTCCAGGATGAGATTGGTGAAGTGTAC---------------TTGAAGAGCAGCCCGAGCC GAGAGGAGCGCAGACGGTGGCGGTCAACCCTGGACAAGCAGTTGAGAAAGAAGATGAAGCTTAAGCCAGTGATGAGGATGAACGGGAACTACGCCCGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN------------NNNNNN------NNNNNN---NNN------NNN---NNNNN NNNNNNNNNN---NNNNNNNNNNNN---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCATCACCACCCAACC------CATGTCAGCTCC---TACTCCACCGCGGCG---------TTCAACTCCACCCGGGACTTTCTCTTTCGGAATCGGGGATTCGGAGACGCCACT---AGCGC G---CAGCACAGYCTCTTCGCCTCAGCTGCG------GGAAGTTTCGCT---GGGCCACATGGACACA CCGATGCCACG---GGACACCTGCTCTTCTCGGGACTGCACGAGCAAGCGGGGACCCAC------GCG TCTTCGAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAG------CAGTATGGTCACGTAACGAGCCCCCGG------TCCGAG---CACTACGCTTCGA CTCAGTTGCACGGCTACGGCCCC---ATGAACATGAATATGGCTGCC------CACCAC---GGG---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAACCAGAGCAGCTGTCGAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACGATGCATGAGCTCGTGACCCACCTCACAGTGGAACATGTCGGGGGACCGGAACAGTCGAATCACATTTGCTTTTGGGAAGAGTGTCCGCGAGAAGGGAAACCATTTAAAGCCAAGTACAAACTTGTAAATCATATCAGAGTGCACACCGGAGAGATAGTCGGCACAGCCCTTAGCCTCCTAATTCGAGCTGAACTAAGCCAGCCCGGAGCCCTTCTGGGCGACGACCAAATTTATAATGTTATCGTCACAGCACATGCCTTCGTAATGATCTTCTTTATAGTAATACCAATTATGATCGGGGGCTTTGGAAACTGGCTACTCCCCCTAATACTAGGGGCCCCCGACATAGCGTTTCCCCGAATAAATAACATGAGCTTCTGACTCCTCCCTCCCTCCCTCCTCCTACTACTGTCGTCTTCCGGGGTTGAGGCCGGGGCCGGAACAGGATGAACCGTTTACCCCCCACTTGCCGGCAACCTCGCCCACGTCGGCGCCTCTGTAGACCTCGCTATTTTTTCCCTTCACCTGGCGGGTGTCTCCTCAATCCTGGGGTCAATTAATTTTATTACCACAATTATTAACATGAAACCCCCCGCCATCTCCCAATATCAGACACCTTTATTTATCTGATCGGTCCTCGTCACAACAGTCCTCCTCCTCCTGTCCCTCCCGGTCCTGGCGGCAGGTATTACTATGCTCCTCACAGACCGAAACCTTAACACTACATTCTTTGACCCAGCCGGAGGAGGAGACCCCATCCTATACCAACACCTATTCTGATTCTTTGGCCACCCAGAGGTCTACATTTTAATCTTGCCAGGATTTGGCATCATCTCACACGTTGTTGCCTACTACGCCGGCAAAAAAGAGCCATTTGGCTACATGGGCATGGTGTGAGCCATGATAGCCATTGGACTCCTGGGCTTCATTGTATGAGCCCACCACATGTTTACCGTTGGGATAGACGTAGACACCCGTGCCTAT
114
Xenodermichthys copei ACCAAGCGAGTCATCCAGTATTTTGCTAGCATTGCGGCTGCT---------GCTGGAGTGAAGAAGGA TGCCAACAAAGGGACCTTGGAGGATCAAATCATTCAAGCTAACCCAGCACTGGAGGCTTTTGGCAATGCCAAAACGGTGAGAAACGACAACTCCTCACGCTTTGGGAAGTTCATTCGTATTCATTTTGGTACGAGCGGTAAACTCTCCTCTGCTGACGTGGAAACTTACTTGCTTGAGAAATCCCGTGTGACCTTTCAGCTCAAATCGGAGAGGAACTACCACATCTTCTACCAGATATTGTCCAATGAAAAACCAGAGCTGCTGGACATGCTGTTGATTACCAACAACCCTTATGATTATTGCTACATCTCCCAAGGAGAAGTAACAGTTAAGTCAATCAATGACAATGAAGAGTTGCTTGCCACTGACAGTGCCTTYGATGTGCTTGGCTTCACTCCAGAGGAGAAGATGGGGATCTATAAGTTGACGGGTGCCATTATGCACTATGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAAGAGCAGGCAGAGCCTGATGGCACTGAGGCAGCTGACAAGTCAGCCTACCTGATGGGGCTAAACTCTGCTGATCTTGTGAAGGGACTCTGCCATCCCAGGGTCAAAGTCGGCAATGAGTATGTAACAAAGGGACAAGGTGTAGATCAAGTCTATTACAAGGCGGTGCGCTTCTCCTTCACGGTCATGTCCATCTCCGTCCGGGCCGAGGGCGAGGACGAGGCG------------------GTCACCATCTTCCTGGAGCCCAAGCCC AACTCSGAGTTCTCCTGCAAGCCGCTGTGCCTGATGCTGGCGGACGAGTCGGACCACGAGACGCTCACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGCGGGCCATGGCGSAGAGCCGGCTGATCCTGTCCGTGGGCGGGCTGCCGCGCTCCTTCCGCTTCCACTTCCGCGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCGTCGGGCTCCGCCTACGTCTGCACGCTGTGCGACGCCACGCGGACAGAGGCCTCGCGCAACATGGTGCTGCACTCCATCACGCGCAGCCACGACGAGAACCTGGAGCGCTACGAGGTCTGGAGGACCAACCCCTACTCGGAGTCGGCCGAGGAGCTGCGCGACCGGGTCAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCGGGCCACGCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGCGAGGTCCAC---------------CGGAAGAGCGCCCCGGGCC GCGAGGAGCGCCGGCAGTGGCGGGCCGCCCTGGACGCGCAGCTGAGGAAGAGGATGAAGCTGAAGCCCGTGATGCGGATGAACGGGAACTACGCCCGCCGGCTGATGACCCGCGAGGCCGCGGAGATCGTCTGCGAGCTGGTGCCCTCGGAGGAGCGGCGCGAGGCCCTGCGCGAGCTGGTGGGCCTCTACCTGCAGATGAAGNNNGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCCGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCC------------CACGAT------CTTGGC---TCG------GGG---CAAAC GGCGTTTGCC---TCGCAGGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCATCACCACCCTACC------CATGTCAGCTCC---TACTCCACCGCGGCG---------TTCAATTCTACCCGGGACTTTCTCTTTCGGAATCGGGGATTCGGAGACGCCACT---AGCGC G---CAGCACAGTCTCTTCGCCTCAGCTGCG------GGAAGTTTCGCA---GGGCCACATGGACACA CCGATGCCACG---GGACACCTGCTCTTCTCGGGACTGCACGAGCAAGCGGCGACCCAC------GCG TCTTCGAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAG------CAGTACGGTCATGTAACGAGCCCCCGG------TCCGAG---CACTACGCTTCGA CTCAGTTGCACGGCTATGGCCCT---ATGAACATGAATATGGCTGCC------CATCAC---GGG---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAACCAGAGCAGCTGTCGAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTCACGGTGGAACACGTCGGGGGACCGGAACAGTCGAATCACATTTGCTTTTGGGAAGAGTGTCCGCGAGAAGGGAAACCGTTTAAAGCCAAGTACAAACTTGTAAATCATATTAGAGTGCACACCGGAGAGATAGTCGGCACGGCTCTTAGCCTTCTAATCCGCGCCGAGCTATCGCAACCGGGTGCCCTTCTAGGCGATGATCAAATTTATAATGTCATCGTTACAGCACACGCCTTCGTAATAATCTTCTTCATAGTAATACCCATCATGATCGGGGGCTTTGGAAATTGACTGCTCCCCTTAATACTGGGGGCCCCCGACATAGCCTTTCCTCGTATAAATAATATGAGCTTTTGACTTCTTCCTCCCTCCCTACTTCTTCTCTTAGCATCCTCTGGGGTTGAAGCTGGAGTGGGCACCGGATGAACCGTTTACCCCCCCCTAGCCGGCAACCAGGCCCACGCCGGTGCCTCCGTGGACCTCGCTATTTTCTCTCTCCACCTAGCAGGTGTTTCCTCAATTTTAGGGTCAATCAATTTTATTACAACAATTACCAACATAAAACCCCCCGCCATCTCTCAATACCAAACACCCCTATTTGTGTGATCCCTTCTTATTACAACTGTTCTACTTCTTCTATCCCTCCCAGTCTTAGCCGCAGCCATTACCATGCTCCTCACAGACCGCAACCTTAATACCACCTTCTTTGACCCCGCAGGCGGAGGAGACCCCATCCTCTACCAACACCTCTTCTGATTCTTCGGTCACCCAGAAGTGTATATTCTTATTCTACCCGGGTTTGGTATCATCTCCCACGTCGTCGCTTACTACGCCGGGAAAAAAGAGCCCTTCGGCTATATAGGCATGGTGTGGGCCATAATGGCCATTGGACTACTTGGGTTTATCGTTTGGGCCCACCACATATTTACAGTTGGGATAGATGTGGACACCCGAGCCTAT
115
Rouleina attrita ACCAAGCGAGTCATCCAGTACTTTGCTAGTATTGCGGCTGCT---------GCTGGAGTGAAGAAGGA TGCCAGCAAAGGGACCTTGGAGGATCAAATCATTCAAGCTAACCCAGCACTGGAGGCTTTTGGCAATGCCAAAACAGTGAGAAACGACAACTCCTCACGCTTTGGGAAGTTCATTCGTATTCATTTTGGTACGAGCGGCAAACTCTCCTCTGCTGACATAGAAACTTACTTGCTTGAGAAATCCCGTGTGACCTTTCAGCTCAAATCGGAGAGGAGCTACCACGTCTTCTACCAGATATTGTCCAATGAAAAGCCAGAGCTGCTGGACATGCTGTTGATTACCAACAACCCTTATGATTATTGCTACATCTCCCAAGGAGAAGTAACAGTTAAGTCAATCAATGACAATGAAGAGTTGCTTGCCACTGACAGTGCCTTTGATGTGCTTGGCTTCACTCCAGAGGAGAAGATGGGGATCTATAAGTTGACGGGTGCCATTATGCACTATGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAAGAGCAGGCAGAGCCTGATGGCACTGAGGCAGCTGACAAGTCAGCCTACCTGATGGGGCTTAACTCTGCTGATCTTGTGAAGGGACTCTGCCATCCCAGGGTCAAAGTCGGCAATGAGTATGTAACAAAAGGACAAGGTGTAGATCAAGTCTATTACNNNGCGGTGCGCTTCTCCTTCACGGTCATGTCCATCTCCGTCCTGGCCGAGGGCGAGGCCGAGGCG------------------GTCACCATCTTCCTGGAGCCCAAGCCC AACTCCGAGCTCTCCTGCAAGCCGCTGTGCCTGATGCTGGCGGACGAGTCGGACCACGAGACGCTCACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGCGGGCCATGACGGAGAGCCGGCTGATCCTGTCCGTGGGCGGGCTGCCGCGCTCCTTCCGCTTCCACTTCCGCGGCACGGGCTACGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCGTCGGGCTCCGCCTACGTCTGCACGCTGTGCGACGCCACCCGCGCCGAGGCCTCGCGCAACATGGTGCTGCACTCCATCACGCGCAGCCACGACGAGAACCTGGAGCGCTACGAGGTCTGGAGGACCAACCCCTACTCGGAGTCGGCCGAGGAGCTGCGCGACCGGGTCAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCGGGCCATGCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGCGAGGTCCAC---------------CTGAAGAGCGGCCCGGGCC GCGAGGAGCGCCGGCAGTGGCGGGCCACCCTGGACACGCAGCTGAGGAAGAGGATGAAGCTGAAGCCCGTGATGCGGATGAACGGGAACTACGCCCGCCGGCTGATGACCCACGAGGCCGTGGAGGTGGTCTGCGAGCTGGTGCCGTCGGAGGAGCGGCGCGAGGCCCTGCGCGAGCTCCTGGGCCTCTACCTGCAGATGAAGGGCGAAGTCACAGACAGAGAAGTGGCTTTGGGGATAAAACCGTTCGCCGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCC------------CACGAT------CTTGGC---TCT------GGG---CAAAC GGCGTTTGCC---TCGCAGGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCATCACCACCCAACC------CATGTCAGCTCC---TACTCCACCGCGGCG---------TTCAATTCCACCCGGGACTTTCTCTTTCGGAATCGGGGATTCGGAGACGCCACT---AGCGC G---CAGCACAGTCTCTTCGCCTCAGCTGCG------GGAAATTTCGCA---GGGCCACATGGACACA CCGATGCCACG---GGACACCTGCTCTTCTCGGGACTGCACGAGCAAGCGGCGACCCAC------GCG TCTTCGAACGTGGTGAAC---AGTCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAG------CAGTACGGTCATGTAACGAGCCCCCGG------TCCGAG---CACTACGCTTCGA CTCAGTTGCACGGCTATGGCCCC---ATGAACATGAATATGGCTGCC------CACCAC---GGG---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGGTCGAACCAGAGCAGCTGTCGAATCCGAAAAAGTCCTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTCACGGTGGAACACGTCGGGGGACCGGAACAGTCGAATCACATTTGCTTTTGGGAAGAGTGTCCGCGAGAAGGGAAACCATTTAAAGCCAAGTACAAACTTGTAAATCATATCAGAGTGCACACCGGAGANNNNNNNNNNNNNNNNCTAAGCCTTCTCATTCGAGCAGAACTAAGCCAACCTGGAGCCCTCCTTGGCGACGATCAAATTTATAATGTAATTGTTACAGCACACGCTTTCGTAATAATTTTCTTTATAGTAATGCCATTAATAATTGGAGGATTCGGAAACTGACTTGTTCCTCTAATGATCGGAGCCCCCGACATAGCTTTCCCTCGTATAAATAACATAAGCTTCTGACTTCTACCCCCCTCTTTTCTACTACTCTTATCCTCCTCAGGAGTAGAAGCAGGTGCAGGAACAGGCTGAACTGTTTACCCTCCCTTAGCAGGGAATCTAGCTCATGCTGGGGCCTCTGTAGACTTAACCATCTTCTCACTACATTTAGCAGGAATTTCCTCAATTCTCGGGGCAATCAATTTTATTACCACTATTATTAACATAAAACCCCCCGCAATTTCACAGTATCAAACCCCTTTATTTGTTTGATCTGTCCTAATTACAGCTGTACTTCTACTCCTTTCACTCCCTGTCTTAGCTGCTGGCATCACTATGCTTTTAACAGATCGAAACCTCAATACTTCCTTCTTTGATCCTGCCGGAGGAGGAGATCCCATTTTATATCAACATCTATTCTGATTCTTTGGCCACCCCGAAGTCTATATTTTAATTCTACCGGGCTTTGGTATAATCTCCCATATTGTAGCATACTATTCAGGTAAAAAAGAACCTTTCGGACACATAGGCATGGTATGAGCTATRATGGCCATTGGTCTCCTTGGCTTCATTGTATGAGCACATCACATGTTTACAGTAGGAATAGACGTAGATACACGAGCCTAT
116
Mallotus villosus ACCAAGAGAGTTATTCAGTACTTGGCCAGCATTGCAGCAGTT---------CCCGGAGCCAAGAGAGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCTTGGAGGCTTTTGGTAATGCCAAAACATTGAGGAATGACAACTCGTCACGCTTTGGAAAATTCATCAGGATTCACTTCGGAACCAATGGCAAGCTGTCCTCAGCTGACATAGAGACTTATCTTCTGGAAAAGTCACGTGTCACCTTCCAACTCAAGTCAGAAAGGAATTACCATATCTTCTTTCAGATCTTGTCTGAAAAAAAGCCAGAGCTGTTGGACATGCTTCTGATCACCAACAACCCATATGACTACTCGTACATCTCCCAAGGAGAGGTAACAGTAGCATCTATCAATGATGCTGATGAGTTGATGGCCACCGACAGTGCCTTTGATATCCTTGGCTTTACTCAAGAGGAGAAAAACGGGGTCTACAAGTTGACTGGAGCTATCATGCATTTTGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGGCTGATGGCACTGAGGCGGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTATGTCACCAAAGGGCAGGGCGTAGATCAAGTCTACTACAAGGCCGTCCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCTGGCCGAGGGGGAGGAGGAAGCG------------------GTCACCGTCTTCAGAGAGCCCAAGCCC AATTCCGAGATGTCCTGCAAACCTCTCTGTCTGATGTTTGTGGACGAGTCGGACCACGAGACCCTGACGGCCATCTTGGGGCCTGTGGTGGCCGAGAGGAAGGCCATGAAGAACAGCCGCCTCATCCTKCCCATGGGCGGCCTCCCTCGCTCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGACGAAAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCTTCAGGCTCCACCTACGTCTGCACCCTCTGCGACGCCACCAGAGCTGAGGCCTCCCGAAACATGGTGCTGCACTCAGTCACCCGCAGCCACGACGAGAACCTGGACCGTTACGAGTTGTGGAGGACCAACCCGTACGGCGAATCGGCGGACGAGCTGCGAGACCGGGTGAAAGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACAATGGACGCGCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCAT---------------TGCAGGCCCAACCCGAGCA GGGAGGAGCGTCGGAGCTGGAGGGCGGCTCTGGACAAGCAGCTCAGGAAGAAGATGAAGCTGAAGCCCGTGATGAGGATGAACGGCAACTTCGCCCGGCGACTGATGACGGCGGAGGCGGTGGAGGCRGTGTGCGAGCTGGTGCCGTCGCAGCAGCGGAGCGAAGCCCTCAGGGAGCTGATGAACCTCTACATCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGTGCTTTCAAAATCAACCACAGTTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC TGCATTTTCC---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CATCACCACCACCCGACT------CATGTCAGCTCT---TACTCTACGGCGGCT---------TTCAATTCCACCCGGGATTTTCTCTTCAGAAATCGAGGCTTCGGAGACGCTACC---AGCGC T---CAGCATAGTCTCTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GCCCCACATGGACACT CAGATGCAGCG---GGACACCTGCTCTTCCCAGGACTTCACGAACAAGCCGCGAGCCAT------GCT TCCTCAAATGTTGTTAAT---AGTCAGATGCGATTG---GGCTTT---TCGGGGGACATGTACGGCAG AGCCGAC------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCG------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGACAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAACTAACGAACCCGAAAAAGTCGTGCAACAAAACTTTTAGCACAATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGAGGACCGGAGCAGTCGAACCACATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATAGTAGGGACGGCTTTAAGCCTCCTTATCCGAGCCGAGCTGAGCCAACCTGGCGCTCTTCTGGGGGACGACCAGATTTATAATGTTATCGTCACCGCACACGCTTTTGTTATAATCTTTTTTATAGTAATACCCATCAWGATCGGAGGGTTCGGCAACTGGCTAATTCCTCTTATGATCGGGGCCCCGGACATGGCGTTCCCACGCATAAATAACATGAGTTTCTGACTTTTACCTCCCTCTTTCCTTCTCCTCTTAGCCTCCTCCGGGGTAGAAGCAGGAGCCGGTACCGGCTGAACAGTTTACCCGCCACTTGCTGGCAATCTCGCTCACGCGGGAGCTTCCGTAGATTTAACCATCTTTTCCCTCCACCTTGCGGGTATCTCCTCTATTCTAGGGGCCATTAATTTTATTACAACTATTATTAACATGAAACCTCCTGCTATTTCTCAGTACCAAACTCCTTTATTTGTTTGAGCTGTGCTAATTACAGCCGTTCTTCTTCTACTGTCCCTTCCTGTCTTAGCCGCTGGAATTACAATGCTTCTGACAGACCGAAATCTAAACACCACTTTCTTTGACCCTGCTGGGGGAGGAGATCCTATTCTATATCAGCATTTATTYTGATTCTTCGGGCACCCCGAAGTCTACATCCTGATTCTCCCCGGATTTGGGATAATCTCACATATTGTAGCCTACTACTCCGGTAAAAAAGAACCATTCGGGTACATGGGCATGGTYTGAGCTATGATGGMTATTGGCCTTCTCGGATTTATTGTTTGAGCCCATCATATGTTTACAGTAGGCATGGACGTTGACACTCGAGCTTAC
117
Thaleichthys pacificus ACCAAGAGAGTTATTCAGTACTTGGCCAGCATTGCAGCAGTT---------CCTGGAGCCAAGAGAGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCTTGGAGGCTTTTGGTAATGCCAAAACTTTAAGGAATGACAACTCGTCACGCTTCGGAAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCAGCTGACATAGAGACTTATCTTCTGGAAAAGTCACGTGTCACCTTCCAACTCAAGTCAGAAAGGAATTACCATATCTTCTTTCAGATCTTGTCCAATAAAAAGCCAGAGCTGTTGGACATGCTTCTGATTACCAACAACCCATATGACTACTCGTACATCTCCCAAGGAGAGGTAACAGTAGCATCTATCAATGATGCTGATGAATTGATGGCCACTGACAGTGCCTTTGATATCCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGAGCTATCATGCATTTTGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCGGCTGACAAGTCAGCTTACCTCATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTATGTCACCAAAGGGCAGGGTGTAGATCAAGTCTACTATAAGGCCGTCCGCTTCTCCATCACCGTCATGTCCGTCTCCGTCCTGGCCGAGGGGGAGGAGGAAGCG------------------GTCACCGTCTTCAGAGAGCAGAAGCCC AACTCGGAGATGTCCTGCAAACCTCTCTGCCTGATGTTTGTGGACGAGTCGGACCACGAGACCCTGACGGCCATCTTGGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATMCTGGCCATGGGCGGCCTCCCTCGCTCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCTTCAGGCTCCACCTACGTCTGCACCCTCTGCGACGCCACCAGAGCTGAGGCCTCCAAAAACATGGTGCTCCACTCAGTCACCCGCAGCCACGACGAGAACCTGGACCGCTACGAGCTGTGGAGGACCAACCCCTACTCTGAATCGGCGGACGAGCTGCGAGACCGGGTGAAAGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGACGCRCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCAT---------------TGCAGGCCCAACCCGAGCA GGGAGGAGCGTCGGAGCTGGAGGGCGGCTCTGGACAAGCAGCTCAGGAAGAAGATGAAGCTGAAGCCCGTGATGAGGATGAACGGAAACTTTGCCCGGCGACTGATGACGGCGGAGGCGGTGGAGGTGGTGTGCGAGCTGGTGCCGTCGCAGCAGCGGAGCGAAGCCCTCAGGGAGCTGATGAACCTCTACATCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTTGCAGACGGGATGGGTGCTTTCAAAATCAACCACAGTTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC TGCATTTTCC---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCACTGGGA------------CATCACCACCACCCGACT------CATGTCAGTTCT---TACTCTACGGCGGCT---------TTCAATTCCACCCGGGATTTTCTCTTCAGAAATCGAGGCTTCGGAGACGCTACC---AGCGC T---CAGCATAGTCTCTTCGCCTCCGCAGCG------GGAAGTTTTGCA---GCCCCACATGGACACT CAGATGCAGCG---GGACACCTGCTCTTCCCAGGACTTCACGAACAAGCCGCGAGCCAT------GCT TCCTCAAATGTTGTTAAT---AGTCAGATGCGATTG---GGCTTT---TCGGGGGACATGTACGGCAG GGCCGAC------CAGTATGGCCACGTTACAAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCTGCG------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAACTAACGAACCCGAAAAAGTCGTGCAACAAAACTTTTAGCACAATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGAGGACCGGAGCAGTCGAACCACATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCTAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATAGTAGGGACGGCTTTAAGCCTCCTTATCCGAGCCGAGCTAAGCCAACCTGGTGCCCTTCTAGGGGATGACCAGATTTATAATGTTATCGTCACTGCGCACGCTTTTGTTATAATCTTTTTTATAGTTATACCAATCATGATTGGAGGGTTTGGTAACTGGCTCATCCCCCTTATGATCGGAGCCCCCGATATGGCCTTTCCCCGCATAAATAATATAAGTTTCTGACTTTTACCTCCCTCCTTCCTTCTCCTTTTAGCTTCTTCTGGTGTTGAAGCGGGAGCCGGGACTGGCTGAACAGTTTATCCGCCGCTTGCTGGCAATCTGGCCCATGCCGGAGCTTCCGTTGATCTAACAATTTTCTCCCTTCACCTTGCGGGGATCTCCTCTATTCTAGGGGCCATCAATTTTATTACAACCATCATTAATATGAAGCCCCCTGCCATTTCCCAGTACCAGACCCCCTTATTCGTCTGAGCCGTCCTGATTACGGCCGTTCTTCTCCTCCTTTCCCTCCCAGTTTTAGCTGCTGGAATTACTATGCTTCTAACAGACCGAAATCTTAACACCACTTTCTTTGACCCTGCCGGGGGAGGGGACCCCATTCTATATCAACATTTATTCTGGTTCTTCGGGCACCCAGAAGTTTACATTCTAATTCTCCCCGGGTTTGGAATGATTTCACACATTGTTGCCTACTACTCAGGTAAAAAAGAACCCTTCGGGTATATAGGCATGGTCTGAGCTATGATGGCTATTGGCCTCCTCGGCTTCATTGTCTGAGCTCATCAWATGTTTACCGTAGGGATGGACGTTGACACCCGAGCATAC
118
Retropinna semoni NNNAAGAGAGTCATCCAGTACTTCGCCAGCATCGCTGCGGTT------GGAGGTGGAGCCAAAAAGGA CAGCAGCAAGGGGACTCTGGAGGATCAAATCATCCCGGCTAACCCGGCACTCGAGGCCTTTGGCAATGCCAAAAAGCTGAGAAATGACAACTCGTCTCGTTTTGGAAAATTCATCAGGATTCACTTTGGCACCTGTGGGAAACTGTCATCGGCCGACATCGAGACCTATCTGCTGGAGAACTCCCGTGTTACCTTCCAGCTTAAGGATGAGAGGAACTACCACATCTTCTACATCATCCTGTCCCACCAGAAGCCTGAAGTAGTGGATCTGCTGCTTACCACCAACAACCCGTACGACTACTGCTTCTTCTCCCAAGGAGAGGTAACGGTCGCCTTCATTAACGACTCTGAGGAGATTAAGGCCACCGACGCCGCCTTCGATGTCCTGGGTTTCACTGCTGAGGAGAAAACAGCGGTCTACAAAGTGATCGGTGCCATCATGCACTACGGCAACATGAAGTACAAACAGAAGCAACGTGAGGAGCAGGCTGAACCTGACGGCACAGAGGCTGCTGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTTCATCAAGGGGTGTGCCATCCCAGAGTGAAGGTTGGAAATGAATACGTCACCAAGGGGCAGAGTGTGGATCAAGTCTACTACAAGGCTGTCCGTTTCTCATTCACAGTCATGTCTGTCTCCATCCAGGCTGAAGGGCAGGAGGAAACT------------------GTCACCATATTCAGGGAGCCAAAACCC AACTCTGAGCTGTCCTGCAAACCCCTCTGTTTGATGTTTGTGGATGAGTCTGACCACGAGACTCTGACGGCCATCCTGGGGCCTGTGGTGGCTGAGAGGAATGCCATGAAGAATAGTCGCCTCATCCTGTCCCTGGGTGGTCTTCCTCGGTTCTTCCGCTTCCATTTCAGGGGCACAGGCTACGATGAGAAGATGGTACGTGAGATGGAGGGCATGGAGGCCTCGGGCTCCACTTATGTCTGCACACTGTGTGACTCCACCAGAGCTGAGGCCTCCAAGAACATGGTGCTCCACTCCATMACACGATGCCATGATGAGAACCTGGACCGTTATGAGACCTGGAGAACCAACCCCTACTCCGAGTCTGCAGAGGAGCTGAGAGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCATCCCACTCTGGACGCTCTGCACTGCGACATCGGGAACGCTACAGAGTTTTACAAGATCTTCCAGGATGAGATCGGGGAGGTGCAC---------------TGCAAACCCGATCCCAGCA AGGAGGAGCGGCGGAGCTGGAGGGCAGCTCTGGATAAGCTATTGAGGAAGAAAATGAAGCTTAAGCCTGTGATGAGGATGAACGGGAACTATGGCCGGCGGCTGATGACCATGGAGGCGGTGGAGGTGGTGTGTGAGCTGGTGCCATCAGAGGAGCGKAGGGAGGCCCTCCGGGAGCTGATGGGTCTCTACCTCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGTGCTTTCAAAATCAACCATAGCTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC AGCATTTTCT---TCCCAAGCACCC---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCACCACCACCCGACC------CATGTCAGTTCT---TACTCTACAGCTGCT---------TTCAATTCTACCCGGGACTTTCTCTTCAGAAATCGAGGCTTTGGGGACGCTACC---AGCGC T---CAGCATAGTCTCTTCGCTTCCGCAGCG------GGAAGTTTTGCA---GCGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAACAAGCTGCAAGCCAT------GCT TCCTCAAATGTTGTTAAC---AGTCAAATGCGATTG---GGCTTT---TCGGGGGACATGTACGGCCG AGCTGAC------CAGTATGGCCATGTTACAAGCCCGCGG------TCTGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGTTAATCTGCAAATGGATCGAACCGGAGCAACTAACGAACCCGAAAAAGTCGTGCAACAAAACTTTTAGCACAATGCACGAGCTAGTGACCCATTTGACGGTGGAGCATGTGGGAGGACCGGAGCAGTCGAACCACATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCCTTCAAAGCCAAATACAAACTTGTGAATCACATCAGAGTTCACACCGGAGAANNNNNNNNNACGGCCCTGAGCCTGCTTATCCGAGCAGAGCTGAGCCAACCCGGTGCCCTTCTTGGGGACGATCAAGTTTATAATGTGATCGTGACCGCCCACGCTTTTGTTATAATCTTCTTCATGGTTATACCAATTATGATCGGGGGGTTCGGAAACTGACTTATCCCTCTAATGATTGGAGCCCCAGATATGGCTTTCCCACGAATAAACAACATGAGCTTCTGACTTCTCCCTCCCTCTTTCCTCCTCCTCCTAGCCTCTTCGGGCGTAGAGGCGGGGGCTGGGACAGGGTGAACGGTGTACCCCCCTCTTGCAGGCAATCTTGCCCATGCGGGAGCTTCAGTCGACTTAACCATTTTTTCTCTCCATCTAGCCGGTATTTCTTCCATCCTCGGGGCAATCAACTTTATCACAACAATTATTAACATGAAACCTCCAGCCATCTCGCAATACCAAACCCCCCTGTTTGTCTGGGCTGTCCTAATCACTGCTGTTCTTCTACTTCTTTCGCTCCCAGTCCTGGCCGCGGGCATCACTATGCTCCTGACAGATCGAAATCTCAACACAACCTTCTTCGATCCCGCAGGCGGGGGTGACCCCATCCTATACCAACACCTCTTTTGATTCTTTGGACACCCAGAGGTGTATATTCTTATCCTTCCGGGCTTCGGTATGATTTCCCACATCGTCGCCTATTACTCAGGCAAAAAGGAACCCTTTGGCTACATGGGAATGGTATGAGCTATGATGGCAATCGGCCTGCTTGGCTTCATCGTGTGAGCTCACCACATGTTTACAGTGGGAAYGGATGTGGATACTCGAGCATAT
119
Lepidogalaxias salamandroides ACCAAAAGAGTAATCCAGTACTTTGCCAGCATTGCTGCTGTC---------CCAGGGGTCAAGAAGGA CCCAAGCAAAGGAACACTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTTGGCAATGCCAAAACATTGCGAAATGACAATTCTTCGCGGTTTGGAAAATTCATCCGCATTCATTTTGGAACAAGTGGCAAATTGTCTTCTGCTGACATAGAGACTTATCTGCTGGAAAAATCACGTGTCACCTTTCAACTTAAAGCGGAAAGGAACTATCACATTTTTTTTCAGATATTGTCCAATCAAAAGCCAGAGTTGCTGGACATGCTGTTAGTTACCAACAATCCATATGATTATTCTTACATCTCCCAAGGAGAGGTAACAGTTCTATCCATCAATGATTCTGAAGAACTTATGGCCACTGATAGTGCATTTGATGTGCTTGGATTTTCTTCAGAGGAAAAGAGTGGGGTCTATAAATTGACAGGTGCCATCATGCACTATGGCAACATGAGGTTCAAGCAAAAGCAGCGTGAGGAGCAAGCAGAACCTGATGGCACAGAAGCTGCTGACAAGGCTGCCTACCTAATGGGACTGAACTCAGCAGATCTCTTGAAAGGACTTTGTCACCCAAGAGTCAAGGTTGGAAATGAGTATGTAACCAAAGGGCAAAGTGTAGATCAAGTATACTACNNNGCCGTGCGCTTCTCCTTCACACTCATGTCTATCTCCGTCCGGGCCGAAGGTCAGGAGCAGCCA------------------GTCACGGTCTTCAGGGAGGCCAAGCCC AACTCAGAACTCTCCTGCAAGCCTATGTGCCTGATGTTCGTGGACGAGTCGGACCACGAGACGCTCACCGCCATCCTGGGGCCCGTGGTTGCCGAGCGGGACGCCATGAAGGAGAGCAGACTCATCCTCTCGCTGGGTGGCCTCCAGCGCTCTTTCCGCTTCCTGTTCCGGGGCACGGGCTATGATGAGAAGATGGTGCGGGAGATGGAGGGGCTGGAGGCCTCGGGCTCCTCCTATGTCTGCACGCTGTGCGACTCCACCCGCGCTGAGGCCTCCCAGAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCGCGAGCGCTACGAGCTGTGGAGGACCAACCCCTTCGCCGAGTCGGCCGACGAGCTTCGCGAGCGCGTCAGGGGCGTGTCCGCCAAGCCCTTCCTGGAGACCACGCCCACGCTGGATGCGCTCCACTGTGACATCGGCAACGCCACTGAGTTCTACAAAATCTTCCAGGATGAGATTGGCGAGATGCAC------CTCCGCGCCGGCAGCGCCAACCCCAGCC GGGAGGAACGGAGGAGCTGGCGCGCCGCCCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAAGCCCGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCCAGGAGGCCGTGGAGGCGGTGTGCGAGCTGGTGCCATCGGAGGAGAGGAGGGAGGCGCTGAAGGAGCTCGTGGGGCTCTACGTCCAGATGAAGNNNNNNGTCACAGACAGAGCACTGGCTTTGGGGATAAATCCGTTCGCTGATGGGATGGGCGCTTTTAAAATCAACCACAGCTCT------------CATGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAGGCACCG---GGC---TAC------------GCAGCCGCTGCCCTGGGA------------CACCATCATCACCCTACC------CATGTCAGCTCC---TACTCCACCGCGGCT---------TTCAATTCTACCCGGGACTTTCTCTTCCGAAATCGGGGGTTCGGAGACGCCACA---AGCGC G---CAGCACAGTCTCTTTGCCTCAGCTGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCTACG---GGACACCTGCTATTCCCAGGACTTCACGAGCAAGCTGCGACCCAC------GCG TCGTCGAACGTGGTAAAC---AGTCAGATGCGCTTG---GGCTTT---TCGGGAGACATGTACGGGAG GGCTGAC------CAGTACGGCCATGTTACGAGCCCCAGG------TCTGAT---CACTACGCTTCGA CTCAGTTGCACGGCTATGGCCCC---ATGAACATGAATATGGCCGCT------CATCAC---GGA---GCAGGGGCCTTCTTCCGTTACATGAGACAGCCGATAAAGCAAGAGCTTATCTGTAAGTGGGTCGAACCGGAGCAACTGTCGAATCCAAAAAAGTCTTGCAACAAAACTTTCAGCACAATGCACGAGCTCGTGACCCACCTAACGGTGGAACACGTAGGGGGACCAGAACAGTCGAATCATATTTGTTTTTGGGAAGAGTGTCCGCGAGAAGGGAAACCGTTCAAAGCCAAATACAAACTTGTGAATCATATCCGAGTACACACCGGAGAGNNNNNNNNNNNNNNNNNNNNNNNNTTAATCCGCTCAGAATTAAGCCAACCAGGCTCACTTCTAGGGGACGACCAAATTTACAATGTAATCGTAACAGCCCATGCTTTCGTAATAATCTTTTTTATAGTCATACCTATTATAATTGGAGGTTTCGGTAATTGATTAATTCCTCTGATAATTGGAGCCCCTGATATAGCGTTCCCACGAATAAACAACATAAGTTTTTGACTTCTACCTCCCTCTTTTATACTTCTTTTAGCCTCCTCTGCAATTGAGGCAGGGGCAGGCACAGGATGAACTGTTTACCCCCCATTAGCAGGCAATCTTGCTCATGCAGGAGCTTCAGTAGACTTCACAATTTTTTCTCTGCACTTGGCAGGTATTTCTTCAATCCTAGGGGCAATTAACTTTATTACTACCATCTTAAACATAAAACCCCCAGCTTTGACTCAATACCAACTCCCACTGTTTGTTTGATCTGTCTTCATTACAGCCGTACTCTTGTTACTCTCCCTCCCAGTCCTAGCAGCGGGGATTACAATACTTCTCACTGACCGAAACCTTAATACAACCTTCTTTGACCCCGCAGGGGGCGGAGACCCTATTCTCTACCAACACTTATTCTGATTTTTCGGGCACCCCGAAGTCTACATTTTAATTCTTCCAGGGTTTGGCATAATTTCCCACATCGTTACCTACTATTCCGGCAAAAAAGAACCCTTCGGCTACATAGGCATAGTATGAGCAATAATAGCAATTGGGTTATTAGGGTTTATTGTATGAGCCCATCATATGTTTACTGTGGGTATAGATGTAGACACTCGAGCNNNN
120
Galaxias maculatus ACCAGGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------CCCGGAGCAAAGAGGGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACGGCGAGAAATGACAACTCGTCACGCTTTGRCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATTCTGAGGAATTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCATTACGGTAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCTGTCCGTTTCTCATTCACAGTCATGTCTGTCTCCATCCAGGCTGAAGGGCAGGAGGAAACT------------------GTCACCATATTCAGGGAGCCAAAACCC AACTCTGAGCTGTCCTGCAAACCCCTCTGTTTGATGTTTGTGGATGAGTCTGACCACGAGACTCTGACGGCCATCCTGGGGCCTGTGGTGGCTGAGAGGAATGCCATGAAAAATAGTCGCCTCATCCTGTCCCTGGGTGGTCTTCCTCGGTTCTTCCGCTTCCATTTCAGGGGCACAGGCTACGATGAGAAGATGGTACGTGAGATGGAGGGCATGGAGGCCTCGGGCTCCACTTATGTCTGCACACTGTGTGACTCCACCAGAGCTGAGGCCTCCAAGAACATGGTGCTCCACTCCATAACACGATGCCATGATGAGAACCTGGACCGTTATGAGACCTGGAGAACCAACCCCTACTCCGAGTCTGCAGAGGAGCTGAGAGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGCGACATCGGGAACGCTACAGAGTTTTACAAGATCTTCCAGGATGAGATCGGGGAGGTGCAC---------------TGCAAACCCGATCCCAGCA AGGAGGAGCGGCGGAGCTGGAGGGCAGCTCTGGATAAGCTATTGAGGAAGAAAATGAAGCTTAAGCCTGTGATGAGGATGAACGGGAACTATGGCCGGCGGCTGATGACCATGGAGGCGGTGGAGGTGGTGTGTGAGCTGGTGCCATCAGAGGAGCGTAGGGAGGCCCTCCGGGAGCTGATGGGTCTCTACCTCCAGATGAAG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTTGGCACAGCTCTAAGCCTGTTAATTCGGGCAGAGCTAAGCCAGCCAGGTGCTCTTTTAGGTGACGACCAGATTTATAATGTAATCGTCACAGCACACGCCTTCGTAATAATTTTCTTTATAGTAATACCTATCATGATTGGAGGCTTTGGAAACTGGCTAATTCCACTTATGATTGGGGCTCCGGATATAGCATTTCCCCGTATGAACAACATAAGCTTTTGGCTACTCCCCCCCTCTTTTCTTCTTCTTTTAGCTTCCTCTGGCGTTGAAGCCGGGGCTGGTACGGGCTGAACTGTTTACCCCCCTTTAGCAGGTAATCTTGCTCATGCTGGAGCTTCCGTAGACCTGACTATCTTTTCCCTACACTTAGCAGGGATCTCTTCAATCTTAGGTGCAATTAACTTCATTACCACAATTATTAACATGAAACCACCTGCTATCTCCCAATATCAGACCCCTTTATTTGTATGGGCAGTCTTAATTACTGCCGTCCTTCTTCTTCTTTCTTTACCCGTTCTTGCTGCGGGAATTACGATACTATTGACGGACCGGAACCTAAATACGACTTTCTTCGACCCTGCCGGTGGGGGAGATCCTATTCTGTACCAGCATTTGTTTTGGTTCTTTGGCCACCCCGAAGTTTACATTCTTATTCTTCCGGGATTCGGAATAATCTCTCATATCGTTGCATACTACTCTGGAAAGAAAGAACCTTTTGGTTATATGGGAATAGTATGAGCTATGATAGCGATTGGTCTTCTAGGGTTTATCGTCTGGGCCCACCATATGTTTACTGTGGGAATAGATGTAGACACCCGAGCATAC
121
Galaxiella nigrostriata ACCAAAAGAGTAATCCAATACTTTGCTAGTATTGCAGCAGTA---------GCTGGAGCTAAGAAAGA TCCAAGCAAGGGGACCCTGGAGGATCAAATCATTCAGGCAAATCCAGCACTGGAAGCTTTTGGTAATGCCAAAACTGTGAGAAACGACAACTCATCCCGCTTTGGTAAATTCATCCGAATTCACTTTGGAACTACTGGAAAATTATCTTCTGCTGACATAGAGACTTACCTACTTGAAAAATCACGTGTTACTTTTCAGTTAAAGTCAGAGAGGAACTATCACATCTTCTTTCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCCTATGACTATGCCTATATCTCCCAGGGAGAGGTTACAGTACAATCAATTAATGATGCAGAGGAGTTGATGGCCACAGACAGTGCCTTTGATGTGCTGGGCTTTACTCAAGAAGAAAAAATGGGCGTCTACAAATTGACCGGTGCCATCATGCACTACGGAAACCTGAGGTTCAAGCAAAAGCAGCGTGAAGAGCAGGCTGAGCCGGATGGTACAGAAGCTGCTGACAAATCCTCTTACCTGATGGGTCTAAATTCTGCAGACCTTATTAAAGGGCTTTGTCATCCCAGAGTCAAAGTTGGCAATGAGTATGTTACCAAAGGTCAAGGTGTAGATCAAGTCTACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGCGAAGTCACAGAGAGAGAAGTAGCATTGGGGATAAACCCGTTTGCAGACGGAATGGGCGCTTTCAAAATCAACCACAGTTCA------------CATGAT------TTGGGC---TCT------GGG---CAAAC TGCATTTTCG---TCCCAAACACCA---GGC---TAC------------GCTGCGGCTGCCTTGGGA------------CACCATCACCACCCTACT------CATGTCAGTTCA---TATTCGACCGCAGCT---------TTCAATTCCACCCGGGACTTTCTCTTCAGAAATCGGGGTTTTGCAGATGCCACC---AGTGC C---CAGCACAGTCTGTTTGCCTCCGCAGCG------GGAAGTTTTGCA---GGACCACATGGACACT CTGATGCCGCA---GGACACCTGCTCTTCCCAGGACTTCATGAGCAAGCCGCGAGTCAT------GCG TCCTCAAATGTTGTGAAC---AGTCAAATGCGATTG---GGCTTT---TCTGGGGACATGTATGGACG TGCCGAT------CAATATGGCCACGTTTCTAGCCCAAGG------TCCGAC---CATTATGCGTCGA CCCAATTGCATGGTTATGGTCCT---ATGAACATGAATATGGCCGCA------CATCAC---GGT---GCGGGGGCCTTCTTCCGATACATGAGGCAGCCCATCAAACAAGAGCTAATCTGCAAGTGGATTGAACCGGAACAACTGGCAAACCCCAAAAAGTCTTGCAACAAAACTTTCAGCACAATGCATGAGCTCGTGACCCATCTAACAGTGGAACATGTCGGGGGGCCTGAGCAGTCAAATCACATTTGCTTCTGGGAAGAATGTCCCCGAGAAGGAAAACCATTCAAAGCAAAATACAAACTTGTAAATCATATTAGAGTACACACCGGAGAAATAGTCGGTACAGCTTTAAGCTTATTAATTCGAGCCGAGCTAAGCCAACCTGGGACCCTTTTAGGTGACGACCAGATTTATAACGTAATTGTAACCGCACACGCCTTTGTAATAATCTTTTTTATGGTGATACCGATTATAATTGGTGGTTTTGGTAACTGATTGGTGCCTCTGATAATTGGAGCTCCAGATATAGCATTTCCACGCATGAATAATATAAGCTTTTGACTTCTTCCACCCTCTTTTCTTCTCTTATTAGCGTCTTCCGGAGTTGAAGCTGGGGCTGGCACAGGATGAACAGTTTACCCGCCCTTAGCGGGGAACCTAGCTCATGCTGGAGCCTCTGTAGACCTGACAATTTTTTCCCTTCACCTGGCAGGAATTTCTTCGATTTTAGGTGCAATTAACTTTATTACTACAATTATTAATATAAAACCCCCAGCAGTTTCACAATATCAAACCCCCTTATTTGTATGGTCCGTTTTAATTACAGCTGTACTCCTCCTTCTTTCTTTGCCAGTTCTTGCTGCAGGAATCACGATACTATTAACCGACCGAAATTTAAACACAACTTTCTTCGACCCCGCGGGAGGAGGCGACCCTATCTTATACCAGCACTTGTTTTGATTTTTTGGACATCCCGAAGTCTATATTCTTATTTTACCCGGCTTCGGAATAATTTCACACATTGTCGCTTATTACTCAGGCAAAAAAGAGCCATCTGGTTACATAGGAATAGTTTGAGCTATGATGGCAATCGGCCTATTAGGCTTCATTGTTTGAGCCCACCATATATTTACAGTCGGTATAGACGTAGATACTCGAGCATAC
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Prosopium williamsoni ACTAAGAGGGTCATCCAGTACTTTGCCAGCATTGCAGCAGTT---------AGTGGGGTTAAGAGGGA TCCAAGCAAGGGCACCCTGGAAGATCAAATCATCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGTTTCGGCAAATTCATCCGTATTCACTTCGGGACCAGTGGGAAACTGTCCTCTGCTGATGTAGAGACGTACCTTCTTGAGAAGTCCCGTATCACCTTTCAGCTCAAAGCTGAGAGGAACTACCATATTTTCTTCCAGATATTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTGTTAATCACCAACAATCCATACGACTACTCCTACATCTCACAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAACTGATGGCCACTGACAGTGCCTTCGATGTACTCGGCTTTACTGCAGAGGAGAAACAGGGGGTCTACAAGTTGACAGGTGCCATCATGCACTACGGCAACATGAGGTTCAAACAAAAGCAACGGGAAGAGCAGGCAGAGCCTGATGGTACAGAGTCTGCTGACAAGTCAGCTTACCTAATGGGGATCAACTCTGCCGATCTGATTAGAGGACTTTGCCATCCCAGAGTTAAGGTTGGCAATGAGTATGTCACCAAAGGTCAAGGTGTAGATCAGGTCTACTACAAGGCTGTGCGTTTCTCCTTCACCATCATGTCCATCTCTATTCAAGCTGAGGGAGAAGATGAAGCA------------------ATCACCATTTTCCGGGAGCCCAAGCCC AACTCAGAGATGTCCTGCAAGCCGCTCTGCCTGATGTTTGTGGACGAGTCGGACCACGAGACGCTCACAGGCGTCCTGGGGCCTGTGGTGGCCGAAAGGAACGCTATGAAGCACAGCCGTCTCATCCTGTCTGTGGGCGGCCTTTCTCGCTCCTTCTGCTTCCACTTCCGGGGCACGGGCTACGACGAGAAAATGGTGCGAGAGATGGAGGGTTTGGAGGCCTCTGGCTCCACCTACATCTGCACGCTGTGTGACTCTACTAGGGCAGAGGCCTCCCACAACATGACTCTCCACTCTGTCACCCGCAGCCACGACGAGAACCTGGAGCGCTACGAACTTTGGAGGACCAACCCTTATTCTGAATCAGCTGAGGAGCTGCGAGACCGAGTCAAAGGCGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGATGCCCTGCACTGTGATATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATAGGGGAGGTCTAT---------------CACAAGGCCAACCCCAGCC GGGAGCAGCGTCGAAGCTGGCGGGCAGCCCTGGACAAGCAGCTGAGGAAGAAGATGAAGCTGAAGCCTGTGATGAGGATGAATGGGAACTATGCACGGAAGCTGATGACCCGGGAGGCAGTGGAGGCAGTGTGTGAGCTGGTGCACTCAGAGGAGCGTCAGGAAGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTCGGCACAGCCCTAAGCCTTTTAATCCGAGCTGAGCTAAGCCAGCCCGGGGCCCTTCTGGGGGACGATCAAATTTATAATGTAATCGTTACGGCCCATGCTTTCGTTATGATTTTCTTTATAGTTATGCCAATTATGATTGGAGGCTTTGGAAACTGACTAATCCCCCTTATGATCGGAGCACCCGATATAGCATTTCCCCGAATAAATAACATGAGCTTCTGACTTCTTCCCCCGTCCTTTCTTCTTCTCCTGGCCTCGTCCGGGGTTGAAGCCGGCGCCGGTACAGGATGAACAGTGTACCCCCCACTAGCAGGCAACCTCGCTCACGCAGGAGCCTCCGTTGATTTAACTATCTTCTCCCTACACTTAGCTGGTATTTCCTCTATTTTAGGAGCCGTTAATTTTATTACAACCATTATTAACATGAAGCCCCCGGCCATCTCGCAGTATCAAACACCCCTTTTTGTTTGAGCCGTTTTGATCACCGCCGTCCTTTTACTACTTTCCCTCCCTGTGCTGGCAGCAGGTATTACCATGCTGCTTACAGATCGAAACCTAAACACCACTTTCTTTGACCCAGCAGGAGGAGGAGACCCAATTCTGTATCAGCACCTATTTTGATTCTTTGGCCACCCGGAAGTATATATTCTTATTCTTCCAGGCTTTGGTATAATCTCACACATTGTTGCATACTACTCGGGCAAGAAAGAACCCTTCGGGTACATGGGAATGGTGTGGGCTATAATGGCCATTGGCCTACTGGGGTTTATCGTCTGAGCCCACCACATGTTTACTGTTGGAATGGATGTCGACACTCGTGCCTAC
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Oncorhynchus keta ACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCAGCAGTT---------AGTGGCGTTAAGAGGGA TCCAAGCAAGGGCACCCTGGAAGATCAAATCATCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGTTTCGGCAAATTCATCCGTATTCACTTTGGGACCAGTGGGAAACTGTCCTCTGCCGACGTAGAGACTTACCTTCTTGAGAAGTCCCGTATCACCTTTCAGCTCAAAGCTGAGAGGAACTACCATATTTTCTTCCAGATATTGTCCAATCAAAAGCCAGAGCTCTTGGACTTGCTGTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAACTGATGGCCACTGATAGTGCCTTCGATGTGCTCGGCTTTACTGCAGAGGAAAAACAGGGGGTCTACAAGTTGACAGGTGCCATAATGCACTACGGCAACATGAGGTTCAAACAAAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGATCAACTCTGCAGATCTGATTAAAGGACTTTGTCATCCCAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAAGGTGTAGATCAGGTCTACTATAAGGCTGTGCGTTTCTCCTTCACCATCATGTCCGTCTCTATTCAAGCTGAGGGAGAAGATGAGGCG------------------ATCACCATTTTCCGGGAGCCCAAGCCC AACTCAGAGATGTCCTGCAAGCCGCTATGCCTGATGTTTGTGGACGAGTCGGACCACGAGACTCTCACAGGCGTCCTGGGGCCTGTGGTGGCCGAGAGGAACGCTATGAAGCACAGCCGTCTCATCCTGTCTGTGGGTGGCCTTTCTCGCTCCTTCCGCTTCCACTTCCGGGGCACGGGCTATGATGAGAAGATGGTGCGAGAGATGGAGGGTTTGGAGGCCTCTGGCTCCACTTACATCTGCACGTTGTGTGACTCCACTCGGGCAGAGGCCTCCCAAAACATGACTCTCCACTCTGTCACCCGCAGCCATGACGAGAACCTGGAGCGCTATGAACTTTGGAGGACCAACCCTCATTCTGAGTCAGCTGAAGAGCTGCGAGACCGAGTCAAAGGCGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGACGCCCTGCACTGTGATATCGGCAATGCCACTGAGTTCTACAAGATCTTCCAGGATGAGATAGGGGAGGTCTAT---------------CACAAGGCAAACCCCAGCC GGGAGCAGCGTCGGAGCTGGCGGGCCGCCCTGGACAAGCAGCTGAGGAAGAAGATGAAGCTGAAGCCTGTGATGAGGATGAATGGGAACTATGCACGGAAGCTGATGACCCGGGAGGCAGTGGAGGCAGTGTGTGAGCTGGTGTGCTCAGAGGAGCGTCAGGAAGCCCTGCGGGAGCTGATGGGGCTCTACATCCAGATGAAGGGCGAAGTCACAGAANGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGAGCTTTTAAAATCAACCACAGCTCC------------CACGAC------CTGRGC---TCC------GGC---CAGAC GGCGTTCTCC---TCCCAGGCTCCC---GGC---TAT------------GCTGCTGCCGCYCTGGGT------------CACCACCACCACCCGACA------CACGTCAGCTCC---TACTCCACSGCAGCC---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAACCGGGGCTTCGGRGAYGCCACC---AGCGC G---CAGCACAGCCTGTTTGCCTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CCGATGCCRCG---GGGCACCTGCTCTTCCCSGGACTCCACGAGCAAGCCGCMAGTCAT------GCR TCATCWAATGTCGTCAAC---AGCCAGATGCGSCTT---GGCTTT---ACYGGGGACATGTACGGCCG GGCTGAC------CAGTAYGSCCATGTTACGAGCCCCCGC------TCCGAC---CACTACGCCTCCT CCCAGYTGCAYGGCTATGGCCCY---ATGAACATGAACATGGCGGCT------CACCAC---GGG---GCAGGGGCCTTCTTCCGATACATGAGGCAGCCCATCAAACAAGAGCTCATCTGTAAGTGGGTCGAGCCCGAACAGTTGTCGAACCCCAAAAAGGCTTGCAACAAAACGTTCAGCACGATGCACGAGCTCGTGACCCACCTGACAGTGGAGCATGTGGGGGGACCGGAACAGTCTAACCATATCTGCTTCTGGGAAGAGTGCGTCCGAGAAGGAAAACCGTTCAAAGCCAAATACAAACTGGTAAATCATATCAGAGTGCACACCGGAGAGATAGTCGGCACCGCCCTAAGCCTACTGATTCGGGCAGAACTAAGCCAGCCAGGCGCTCTTCTAGGAGATGACCAGATCTATAACGTAATCGTCACAGCCCATGCCTTCGTTATGATTTTCTTTATAGTCATACCAATTATAATCGGAGGATTTGGAAACTGATTAATCCCTCTAATAATCGGAGCCCCCGATATGGCATTCCCACGAATAAATAACATAAGCTTCTGACTCCTCCCCCCCTCGTTTCTCCTCCTCCTATCTTCATCTGGAGTTGAAGCCGGCGCTGGTACCGGATGAACAGTTTATCCCCCTCTGGCCGGAAACCTTGCCCACGCGGGAGCCTCTGTTGACTTAACCATCTTCTCCCTTCATTTAGCTGGAATTTCCTCAATTTTAGGAGCCATTAATTTTATCACAACCATTATTAATATGAAGCCCCCAGCCATCTCTCAGTACCAGACCCCACTTTTTGTTTGAGCTGTGCTAATCACTGCTGTACTTCTACTACTTTCCCTACCCGTCCTAGCAGCAGGCATTACTATGTTACTTACTGACCGAAATTTAAACACCACTTTCTTTGACCCGGCAGGCGGGGGAGATCCGATTTTATACCAACACCTCTTTTGGTTCTTCGGACACCCAGAGGTATATATTCTTATCCTCCCAGGCTTCGGTATAATTTCACATATCGTTGCATACTACTCCGGCAAAAAAGAACCATTCGGGTATATAGGAATAGTTTGAGCTATAATAGCCATCGGGTTACTGGGGTTTATCGTTTGAGCCCACCACATGTTCACTGTCGGAATAGACGTGGACACTCGTGCCTAC
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Esox lucius ACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCAGCAGTC---------AGTGGTGCTAAGAGGGA TCCCAGCAAGGGGACCCTGGAAGATCAAATCATCCAGGCCAACCCTGCACTGGAGGCTTTTGGTAAYGCCAAAACAGTTAGAAATGACAACTCATCACGTTTTGGCAAATTCATCCGTATTCACTTTGGAACAAGTGGAAAACTGTCCTCTGCTGATATTGAGACTTACCTTCTTGAGAAGTCCCGTATCACCTTTCAGCTCAAAGCYGAGAGGAACTACCATATTTTCTTCCAGATATTGTCCAACCAAAAGCCAGAGCTGCTGGACATGCTGTTAATCACCAATAACCCATATGACTACTCCTACATCTCTCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGATGAACTGTTGGCTACTGACAGCGCCTTTGATGTACTCGGCTTTACTGCAGAGGAGAAACAGGGGGTCTACAAGTTGACAGGTGCCATCATGCACTAYGGCAACATGAAGTTCAAACAAAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAAGCTGCTGACAARTCAGCGTACCTAATGGGCATYAACTCTGCAGATCTCATTAAAGGACTTTGTCATCCCAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAAGGAGTAGATCAGGTCTACTACAAAGCAGTGCGTTTCTCCTTCACCATCATGTCCGTCTCCCTCCAGGCGGAGGGAGAGGACGAGGCT------------------GTCAACATCTTCCAGGAGTCCAAGCCG AACTCAGAGATGTCCTGCAAGCCTCTCTGCCTGATGTTTGTTGATGAGTCAGATCACGAAACGCTGACAGCTGTCTTGGGGCCCGTAGTGGCTGAAAGGAACGCCATGAAGAACAGTCGTCTTATCTTGTCCCTGGGTGGACTTTCTCGCTCCTTCCGCTTCCACTTCCGAGGCACGGGCTATGATGAGAAGATGGTGCGAGAGATGGAAGGTTTGGAGGCCTCTGGCTCCACGTACATCTGCACCCTGTGCGACTCCACTCGGGCTGAAGCCTCTCACAACATGACTCTCCACTCTGTCACCCGCAACCACGACGAGAACCTGGAGCGCTACGAACTCTGGAGAACCAACCCTTATTCTGAGTCTGTTGAGGAGCTGCGAGACCGGGTGAAGGGCGTCTCAGCCAAACCTTTCATGGAGATCCAGCCCACCCTGGACGCGCTGCACTGCGACATAGGCAATGCCACTGAGTTCTACAAGATCTTCCAGGATGAGATAGGGGAGATCTAC---------------GACAATCCCAACCCCAGCA GGGAGCAGCGTCGGAGTTGGCGGGCTGCACTCGACAAGCAGCTAAGACAGAAGATGAAGCTGAAGCCAGTGATGAGGATGAATGGAAATTATGCAAGGAGGCTGATGACCCGAGAGGCTGTGGAAGCGGTGTGTGAGCTGGTGCGTTCAGAGGAGCGTCAGGAGGCCCTGAGGGAACTGATGGGGCTCTACCTCAAGATGAAGNNNNNNNNNNNNNNNAGAGAAGTTGCTTTGGGGATAAATCCGTTTGCAGACGGGATGGGCGCTTTTAAAATCAACCACAGCTCT------------CACGAC------CTAGGC---TCC------GGC---CAAAC GGCGTTCTCC---TCACAAGCACCC---GGC---TAC------------GCCGCCGCAGCGCTGGGT------------CACCACCACCACCCGACA------CACGTTAGCTCG---TACTCCACCGCAGCG---------TTCAACTCAACCCGGGACTTTCTCTTCAGAAACCGGGGCTTCGGGGACGCGGCC---AGCGC G---CAGCACAGCCTGTTCGCCTCAGCAGCG------GGAAGTTTTGCT---GGACCACAYGGACACT CAGATACTGCG---GGGCACCTGCTCTTCCCGGGACTTCACGAGCAAGCCGCGAGCCAT------GCG TCCTCGAATGTAGTCAAC---AGCCAGATGCGATTG---GGCTTT---ACCGGGGACATGTACGGCCG GGCTGAC------CAGTATGGCCACGTTACCAGTCCCCGC------TCCGAC---CACTATGCATCCA CCCAGCTCCACGGCTACGGACCC---ATGAACATGAATATGGCGGCT------CAYCAC---GGA---GCTGGGGCCTTCTTCAGATACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAATGGGTCGAACCGGAGCAGTTGTCGAACCCCAAGAAGTCCTGCAACAAAACGTTCAGCACGATGCACGAGCTGGTGACCCATCTGACGGTGGAGCACGTCGGTGGACCGGAGCAGTCGAACCATATCTGTTTTTGGGAAGAGTGTGTCCGAGAAGGAAAACCATTTAAAGCCAAGTACAAACTTGTAAATCACATCAGAGTGCACNNNNNNNNNATAGTCGGCACAGCCTTAAGCCTTTTAATCCGGGCCGAACTAAGCCAGCCAGGGGCTCTCTTAGGTGACGACCAGATTTATAATGTTATCGTTACAGCCCATGCCTTTGTTATAATCTTTTTTATAGTTATACCCGTTATAATTGGGGGTTTTGGAAACTGATTAATTCCCCTAATGATTGGTGCCCCCGACATGGCCTTCCCCCGCATAAATAATATAAGCTTCTGACTTCTCCCCCCCTCCTTTTTACTTCTCTTAGCCTCCTCAGGTGTTGAAGCTGGTGCTGGTACTGGCTGAACAGTTTATCCGCCTTTGGCCGGAAACTTAGCACACGCAGGTGCTTCTGTAGACTTAACTATTTTCTCTCTCCACCTGGCCGGAATTTCTTCTATTCTAGGAGCTATTAATTTTATTACCACAATTATTAACATAAAACCCCCCGCCATCTCACAATATCAGACACCATTATTTGTTTGAGCAGTCCTGATTACAGCTGTACTTCTACTTCTATCTCTCCCAGTCCTAGCCGCTGGAATTACCATATTGCTCACAGACCGAAATTTAAACACCACATTCTTTGACCCCGCTGGTGGTGGAGACCCTATTCTATACCAACACCTCTTCTGATTCTTCGGACACCCGGAAGTCTACATTCTTATTCTACCAGGATTTGGTATAATCTCTCACATTGTAGCTTATTATTCTGGTAAAAAAGAACCATTCGGCTACATAGGCATAGTATGAGCAATAATGGCCATTGGTCTCCTTGGCTTTATTGTCTGAGCCCACCATATGTTTACTGTGGGAATAGATGTAGACACTCGCGCCTAC
125
Umbra limi ACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCAGCAGTC---------AGTGGCGTTAAAAGGGA TCCAAGCAAGGGGACCCTGGAAGATCAAATAATCCAGGCTAACCCAGCACTGGAGGCTTTTGGTAATGCCAAAACAATAAGGAATGACAACTCTTCGCGTTTTGGTAAATTCATCCGCATTCACTTTGGAACCAGCGGGAAACTGTCCTCTGCCGACATTGAGACTTACCTTCTTGAGAAGTCCCGTATCACCTTTCAGCTCAAAGCTGAGAGGAACTACCACATTTTCTTCCAGATATTGTCCAATCAAAAGCCGGAGCTGTTGGACATGCTCTTAATCACCAACAATCCGTATGACTACTCCTACATCTCCCAAGGAGAGGTAACTGTAGCATCCATCAATGATTCCGAAGAACTGTTGGCCACAGACAGTGCCTTCGATGTCCTCGGCTTCACCCCAGAGGAGAAACAGGGAGTTTACAAGTTGACAGGTGCTATCATGCACTACGGCAACATGAGATTCAAACAGAAACAGCGTGAGGAGCAGGCAGAGTCTGACGGTACAGAAGCAGCCGACAAGTCAGCATACCTAATGGGGATCAACTCTGCAGATCTGATCAAAGGACTCTGTCACCCCAGAGTCAAGGTTGGCAATGAATATGTCACTAAAGGTCAGGGTGTAGATCAGGTCTACTACAAGGCTGTGCGTTACTCCTTCACGATTATGTCAATCTCTATTCAAGTTGACGGGGAAGATGAGGTT------------------GTCACCATTTTCCAGGAGTCCAAGCCC AACTCAGAGATGTCCTGCAAGCCTCTCTGTCTGATGTTTGTGGATGAGTCAGATCATGAGACGCTGACAGCTGTCCTGGGGCCCGTGGTTGCCGAAAGGAACGCTATGAAGAACAGTCGTCTTATTCTGTCTGTCGGTGGCCTATCTCGCTCCTTCCGCTTCCACTTCCGAGGCACAGGTTACGATGAGAAAATGGTACGAGATATGGGAGGTTTGGAGGCCTCAGGTTCAACCTATGTCTGCACGCTGTGCGATTCCACTCGGGCAGAGGCCTCCCACAACATGACCCTCCATTCTATCACCCGTAGCCATGACGAGAACCTGGAGCGCTACGAACTCTGGAGAACTAACCCTTATTCTGAGTCTGCTGAGGAGCTTCGTGACCGGGTCAAAGGCGTCTCTGCGAAACCCTTCATGGAGATCCATCCCACCCTGGATGCTCTGCACTGCGATATCGGCAATGCCACAGAGTTCTACAAAATCTTCCAGGATGAGATAGGGGAGGTCTAC---------------CAAAATCCCAACCCTAGCA AAGAGCTGCGCCGGAGCTGGCGGGCTGCCCTTGACAAGCAACTAAGAACAAAGATGAAGCTGAAGCCTGTGATGAGGATGAATGGGAACTATGCACGCAAACTGATGACCCGGGAGGCTGTGGATGCAGTATGTGAGCTGGTATGCTCAGAGGAGCGGCGGGCAGCCCTGAGGGAACTGATGGAGCTTTATCTACAGATGAAGGGCGAAGTCACAGAAAGAGAAGTTGCTTTGGGGATAAACCCGTTCGCAGACGGGATGGGCGCTTTTAAAATCAACCACAGTTCT------------CACGAC------CTGGGC---TCC------GGG---CAGAC GGCGTTTTCT---TCCCAAGCTCCC---GGC---TAC------------GCTGCAGCTGCGTTGGGT------------CACCACCACCACCCAACA------CACGTTAGCTCA---TATTCCACCGCARCC---------TTCAATTCCACCCGGGACTTTCTCTTCAGAAACAGGGGCTTCGGAGATGCGGCC---AGCGC A---CAGCACAGCCTGTTTGCCTCAGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATACCGCG---GGGCACCTGCTTTTCCCGGGACTCCACGAGCAAGCCGCGAGCCAT------GCA TCTTCGAATGTGGTCAAC---AGCCAAATGCGACTG---GGCTTT---ACCGGGGACATGTACGGCCG GCCTGAC------CAGTATGGCCACGTTACCAGTCCCCGC------TCTGAT---CACTATGCCTCCA CTCAGCTTCACGGTTACGGCCCC---ATGAACATGAATATGGCGGCT------CATCAC---GGA---GCAGGGGCCTTCTTCAGATACATGAGGCAGCCGATTAAACAAGAGCTTATCTGCAAATGGGTCGAACCAGAGCAGTTGTCAAACCCCAAAAAGTCTTGCAACAAAACCTTCAGCACAATGCACGAGTTGGTGACACACCTGACGGTGGAGCATGTCGGTGGACCGGAGCAGTCGAACCATATCTGTTTTTGGGAAGAATGTGTGCGAGAAGGAAAGCCATTCAAAGCCAAATACAAACTCGTAAATCATATCAGAGTTCACACCGGAGAAATAGTGGGCACTGCTTTAAGTCTCTTAATTCGAGCCGAACTCAGTCAACCAGGCGCCCTACTGGGGGATGACCAGATTTATAACGTTATCGTCACCGCCCACGCTTTTGTTATAATTTTCTTCATAGTTATACCCATTATAATTGGAGGGTTTGGTAATTGACTAATCCCCCTAATAATTGGAGCCCCAGACATGGCATTCCCTCGAATAAATAACATAAGCTTCTGGCTTCTTCCTCCCTCCTTCCTTCTTCTTTTAGCATCTTCAGGGGTTGAAGCTGGCGCCGGAACGGGGTGAACAGTTTATCCCCCCCTGGCTGGCAACCTCGCTCACGCCGGCGCCTCCGTAGACCTAACTATCTTTTCCCTCCACCTAGCTGGGGTCTCTTCCATTTTAGGGGCCATTAACTTCATCACAACAATCATTAACATAAAACCCCCCGCCATCTCCCAATATCAAACACCCTTATTCATCTGAGCTGTATTAATTACTGCCGTCCTTCTACTTCTTTCCCTCCCTGTTCTAGCTGCCGGAATTACAATACTTCTCACGGACCGAAACTTAAATACCACCTTCTTTGACCCTGCAGGGGGAGGGGACCCCATTCTTTACCAACACCTCTTTTGATTCTTTGGCCACCCCGAAGTCTATATTTTAATTTTGCCAGGATTTGGGATAATCTCACACATTGTGGCCTACTACTCCGGAAAAAAGGAACCCTTTGGTTATATGGGCATGGTATGAGCTATAATGGCCATCGGCCTCCTGGGTTTTATTGTCTGAGCCCACCACATGTTTACTGTAGGCATAGATGTAGACACTCGTGCCTAT
126
Diplophos taenia ACTAAGAGAGTTATCCAGTATTTTGCCAGCATTGCTGCAGTT---------GGCGGAGCAAAAAGGGA TTCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAATCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATCGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTTAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTKTTGATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAAGTAACAGTTGCATCCATCAATGATTCTGAGGAGCTGATGGCCACTGACAGTGCATTTGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTATAAGTTGACAGGTGCAATCATGCATTACGGAAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGCCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTTGACCAAGTCTACTACAAGGCTGTGCGATTCTCCTTCACTGTCATGGCTGTCTCTGTCCAGGCAGAGGGAGAGGATRAGGCC------------------GTCACCGTCTTCAGAGAGTCCAAGCCC AACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACACTGACAGGCATCCTTGGGCCTGTGGTGGCTGAGAGGRACGCTATGAAGAACAGCCGCCTCATACTGTCTCTCGGGGGCCTCCCTCGATCCTTTYGCTTCCACTTCAGGGGCACAGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACATATGTCTGCACCCTCTGTGACTCCACCCGTGCAGAGGCCTCCCACAACATGGTGCTTCACTCCATTACCCGCAGCCACGATGAGAACATGGAGCGCTACGAGATCTGGAGGACTAACCCGTACTCCGAGTCCGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACTCAGCCCACCCTAGACGCTCTGCACTGTGATATCGGTAACGCCACCGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTAC---------------CGGAAGCCCAACCCAAGCA GGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGAGGCTGATGACCAGCGAGGCRGTGGAGAGTGTGTGTGAGCTAGTCCCCTCAGAACAGCGGCGTGAGGCTCTCAGGGAGCTGATGGGACTCTATCTCCAAATGAAGGGCGAAGTCACAGAAAGAGAGGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC AGCGTTTTCC---TCTCAAGCACCC---GGC---TAC------------GCAGCCGCTGCCCTCGGA------------CACCACCACCATCCAACA------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACTCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC G---CAACACAGTCTCTTCGCATCTGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCT---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCTGCGAGCCAT------GCG TCCTCAAATGTTGTTAAC---AGTCAGATGCGGTTG---GGCTTT---TCAGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCATGTTACTAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTACGGCCCT---ATGAACATGAATATGGCCGCA------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGCTGATCTGYAAGTGGATCGAACCAGAGCAACTTACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGARCATGTGGGGGGACCAGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGGGAGATGGTGGGCACGGCCCTTAGCCTGCTTATTCGGGCAGAGCTTAGCCAGCCCGGCGCGCTTCTAGGCGATGATCAAATCTATAATGTAATCGTCACGGCGCACGCCTTCGTAATAATCTTCTTTATAGTGATACCAATTATGATTGGGGGATTTGGAAACTGATTAATTCCCCTTATGATTGGGGCCCCGGACATGGCCTTCCCTCGGATGAACAATATAAGTTTCTGGCTCCTTCCTCCCTCCTTCCTTCTTCTCCTGGCTTCCTCCGGGGTGGAGGCCGGAGCCGGGACAGGATGAACCGTGTACCCCCCTCTCGCCGGCAACCTTGCCCATGCAGGAGCCTCCGTGGACCTCACCATCTTCTCCCTTCACCTCGCAGGGATTTCTTCTATTCTTGGGGCAATCAACTTTATCACTACAATCATTAACATAAAACCCCCTGCTATCTCCCAGTATCAAACACCTCTATTCGTGTGAGCCGTCCTAGTCACTGCCGTTCTCCTTCTACTATCCCTCCCCGTTCTAGCTGCAGGGATTACGATACTTCTCACCGACCGGAACCTAAACACCACCTTCTTTGACCCGGCAGGAGGGGGGGACCCAATCCTTTACCAGCACCTCTTTTGGTTCTTCGGGCACCCCGAAGTATACATTCTAATCCTCCCGGGCTTCGGTATAATCTCCCACATTGTTGCCTACTACGCAGGGAAAAAAGAACCTTTTGGGTACATAGGGATGGTATGAGCCATGATGGCCATTGGACTCCTAGGCTTCATCGTTTGGGCCCACCACATGTTCACGGTTGGAATGGACGTTGACACCCGAGCATAC
127
Bonapartia pedaliota ACCAAGAGAGTTATCCAGTACTTGGCCAGCATTGCGGCATGT---------CCCGGAGCAAAGAGGGA TCCCAGCAAGGGAACCCTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGACAACTCATCACGGTTTGGCAAATTCATCCGGATTCACTTTGGAACCAATGGCAAGTTGTCCTCTGCGGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTTTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACTTGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGCGCCTTTGATGTGCTTGGCTTTACTCCAGAGGAGAAAATGGGGATCTACAAGTTGACAGGTGCAATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCAGAACCTGATGGCACTGAGGCTGCTGACAAGTCAGCTTATCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAAAGTGTAGACCAAGTCTACTACAAGGCCGTGCGATTCTCCTTCACCGTCATGTCTGTCTCTGTCCAGGCTGAGGGGGCGGATGAGGCC------------------GTCACCATCTTCAGGGAGCTCAAGCCA AACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGACGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCCGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTAGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGACGAGAAGATGGTGCGCGATATGGAGGGCCTGGAGGCCTCAGGCTCCACATACGTCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCTGAGTCGGCAGACGAGCTTCGGGATCGGGTAAAAGGTGTCTCCGCCAAACCCTTCATGGAGACTCAGCCCACGCTGGACGCCCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTAC---------------CGGAAGCCCAACCCGAGCA GGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGGTGGTGTGTGAGCTGGTCCCTTCAGAACAGCGGCGCGAGGCCCTCACGGAGCTGGTGGGGCTCTACCTCCAAATGAAGNNNNNNNNNNNNGAGAGAGAGGTGGCGTTGGGGATCAACCCGTTCGCGGACGGGATGGGCGCCTTCMAAATCAACCACGGCTCC------------CACGAC------ATCGGC---TCC------GGG---CAGAC GGCGTTCTCC---TCGCAGGCGCCC---GGC---TAC------------GCGGCGGCCGCCCTGGGG------------CACCACCACCACCCGACC------CACGTCAGCTCC---TACTCCACGGCAGCC---------TTCAACTCCACCAGGGACTTTCTGTTCAGGAACCGGGGCTTCGGAGACGCCACC---AGCGC C---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTCGCG---GGGCCACACGGACACT CGGATGCCGCG---GGGCACCTGCTCTTCCCCGGGCTGCACGAACAAGCCGCGAGCCAC------GCG TCCTCGAACGTCGTCAAC---AGCCAGATGCGACTG---GGCTTT---TCGGGGGACATGTACGGCCG GGCCGAC------CAGTACGGCCACGTCACGAGCCCGCGS------TCCGAC---CACTACGCGTCGA CCCAGTTGCACGGCTACGGCCCT---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCCGGGGCCTTCTTTCGGTACATGCGGCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAACTATCGAACCCCAAGAAGGCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGGGGGCCGGAGCAGGCGAACCACATATGCGTCTGGGAGGACTGTGCTCGCGAGGGGAAGCCGTTCAAAGCCAAATACAAACTTGTGAATCATATCAGAGTACACACCNNNNNNATAGTGGGCACGGCTTTAAGCCTACTCATCCGAGCCGAACTAAGCCAACCCGGCGCCCTCTTAGGAGACGACCAAATTTACAATGTAATCGTTACAGCACATGCTTTCGTAATAATCTTCTTTATAGTAATGCCCGTTATAATTGGGGGTTTTGGGAATTGACTTATTCCCCTAATAATCGGGGCCCCCGATATAGCATTCCCACGCATAAACAACATAAGCTTCTGACTCCTACCTCCTTCTTTTCTTCTCCTACTAGCCTCCTCAGGTGTTGAAGCTGGGGCCGGAACAGGGTGGACCGTCTATCCCCCTCTCGCCGGCAATTTAGCCCACGCCGGGGCCTCTGTCGACTTAACAATCTTTTCCCTCCATCTTGCAGGCATTTCCTCAATCCTTGGTGCAATCAACTTTATTACCACCATTATTAATATGAAACCTCCCGCCGCCTCGCAGTATCAGACACCCCTCTTCGTCTGAGCTGTCCTAATTACCGCTGTCCTTCTCCTCCTCTCCCTCCCAGTCTTAGCTGCCGGCATCACCATGCTTCTAACAGATCGAAATCTAAATACAACCTTCTTTGACCCCGCCGGAGGAGGGGACCCCATCCTCTACCAACACCTCTTTTGATTCTTCGGTCACCCCGAAGTTTATATTCTAATCCTCCCCGGCTTTGGTATAATCTCACACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTTGGATACATGGGCATAGTTTGAGCTATAATAGCCATCGGGCTCCTAGGCTTTATTGTCTGAGCCCATCATATGTTTACAGTCGGAATAGACGTAGACACCCGGGCCTAT
128
Margrethia obtusirostra ACCAAGAGAGTTATCCAGTACTTGGCCAGCATCGCTGCAGTT---------CCCGGAGCAAAGAGGGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCTAAAACACTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCGGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGATAGCGCATTCGATGTGCTTGGCTTTACACCAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCCTTCCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGGCAGGGTGTAGACCAAGTCTATTACAAGGCTGTGCGGTTCTCCTTCACCGTCATGTCTGTCTCCGTCCAGGCCGAGGGGGAGGATGAGGCC------------------ATCACCATCTTCAGGGAGTCCAAGCCA AACTCTGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTCGTGGATGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCCGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTCAGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGATGAGAAGATGGTGCGTGACCTGGAGGGCCTGGAGGCCTCAGGCTCCACATACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCGCCCACAACATGGTGCTTCACTCCATCACCCGCAGCCACGACGAGAACGCGGAGCGCTACGAGATCTGGAGGACCAATCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCTCTACACTGTGACATCGGTAACGCCACCGAGTTCTACAAGATCTTCCAGGAYGAGATCGGCGAGGTGCAC---------------CGCAGGCCCAACCCCAGCC GGGAGGAGCGCCGGAGCTGGCGGGCCGCTCTGGACAAGCAGCTGCGGAGGAAGATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCAGGGAGGCGGCAGAGGTGGTGTGTGAGCTGGTCCCCTCGGAACAGCGGCGCGAGGCCCTCAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN------------NNNNNN------NNNNNN---NNN------NNN---CAGAC GGCGTTCTCC---TCCCAGGCGCCC---GGC---TAC------------GCGGCCGCTGCCCTCGGC------------CATCACCACCACCCGACA------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGGGACGCCACC---AGTGC G---CAGCACAGCCTCTTCGCGTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCGGGACTGCACGAGCAAGCCGCGAGCCAC------GCG TCCTCAAATGTTGTTAAC---AGCCAGATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTACGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCG------CACCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATCAAACAAGAGCTGATCTGCAAGTGGATCGAACCAGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAGCATGTGGGGGGGCCCGAGCAGTCCAACCATATTTGCTTCTGGGAAGAGTGCGCCCGAGAAGGAAAACCGTTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCAGAGTTAAATCAACCCGGTGCCCTCCTAGGCGACGACCAAATTTATAACGTTATTGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTGATACCAATCATGATTGGTGGCTTCGGAAATTGACTAATTCCCCTTATGATCGGAGCCCCTGACATAGCCTTCCCTCGAATAAACAACATAAGTTTCTGACTTCTCCCTCCCTCCTTTCTCCTCCTACTGGCCTCTGCAGGAGTTGAAGCCGGTGCCGGAACAGGGTGAACGGTCTACCCTCCCCTTGCCGGTAACTTAGCCCACGCAGGAGCATCTGTTGATCTCACCATCTTCTCCCTACATCTTGCAGGTGTCTCTTCAATTCTTGGGGCAATTAACTTTATCACAACAATTATTAACATGAAGCCCCCAGCCATCTCCCAATATCAAACGCCCCTCTTCGTTTGAGCTGTTCTTATTACTGCTGTCCTCCTTCTCTTGTCCCTTCCAGTACTAGCTGCTGGGATCACTATACTCCTCACAGATCGAAACCTAAACACAACCTTCTTCGACCCTGCCGGGGGAGGAGACCCCATCCTCTACCAACATCTCTTCTGATTCTTCGGACACCCCGAAGTATACATTTTGATTCTTCCAGGCTTTGGCATGATCTCCCACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTCGGCTACATGGGCATGGTCTGAGCCATGATGGCCATCGGACTTCTAGGCTTTATTGTCTGAGCCCACCATATGTTCACAGTCGGAATAGATGTGGACACCCGAGCCTAC
129
Gonostoma elongatum ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------GCCGGAGCAAAGAGGGA TGCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCCAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGCGGCAAGCTGTCCTCTGCAGACGTAGAGACTTACCTTCTGGAAAAGTCGCGTGTCACCTTTCAGCTCAAAGCAGAGAGGAACTACCACATCTTCTTCCAGATCTTGTCCAATCACAAGCCAGAGCTGTTGGACATGCTTTTGATCACCAACAATCCATACGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACCGACAGTGCNTTCGATGTGCTTGGCTTTACTCAGGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCAYTACGGCAACATGAGGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCTGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTATCTAATGGGGCTGAACTCTGCAGATCTCGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGTCAGGGTGTAGACCAAGTCTACTACAAGGCTGTGCGATTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGGAAGGATGAGGCC------------------GTCACCGTCTTCAGGGAGTCCAAGCCC AACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGTGTCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTGAGATCCTTCCGCTTCCACTTCAGAGGTACAGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTAC---------------CGGAGGCCCAACCCAAGCA GGGAGGAGCGCCGGGGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGCGGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTAYGCCCGGCGGCTGATGAGCACAGAGGCGGTGGAGGTGGTCTGTGAGCTGGTCCCCTCAGAGCAGCGGYGGGAGGCCCTCAGGGAACTGATGGGGCTCTACCTCCAAATGAAGGGCGAGGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CACGAT------CTTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAAGCACCC---GGC---TAC------------GCAGCCGCTGCCCTCGGA------------CACCACCACCACCCGACA------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGATGCCACG---AGTGC G---CAACACAGTCTCTTCGCGTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGCCACCTGCTCTTCCCGGGACTTCACGAGCAAGCCGCGAGCCAT------GCG TCCTCAAACGTTGTTAAY---AGTCAGATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CACCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAACTGATCTGCAAGTGGATCGAACCTGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAACTGGTGACCCATTTGACGGTGGAGCATGTGGGGGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATGGTCGGGACAGCTCTAAGCCTGCTAATTCGAGCAGAACTGAGCCAAYCCGGCGCTCTCCTTGGAGACGATCAAATTTATAATGTAATCGTCACAGCTCATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATCATAATCGGGGGCTTCGGCAACTGATTAATTCCACTGATGATCGGCGCCCCCGACATGGCATTCCCTCGTATAAATAATATGAGCTTTTGACTTCTACCCCCATCATTCCTCCTACTTCTAGCATCTTCCGGTGTAGAAGCTGGAGCTGGTACCGGTTGAACGGTATACCCACCCCTGGCAGGCAACCTAGCACATGCGGGAGCTTCTGTAGACCTAACAATCTTCTCTCTTCACCTGGCGGGTGTTTCGTCGATTCTCGGGGCTATCAATTTTATCACCACCATTATCAACATGAAACCCCCAGCCATTTCTCAGTACCAGACACCCCTCTTTGTTTGAGCAGTTCTGATCACTGCCGTTCTTCTACTTCTATCTCTCCCAGTACTAGCCGCTGGTATTACAATGCTTTTAACCGATCGTAATTTAAACACAACCTTCTTTGACCCGGCAGGCGGCGGGGACCCAATCCTTTACCAACACCTATTYTGATTCTTTGGGCACCCGGAAGTGTACATTCTAATTCTACCYGGATTCGGCATGATCTCACACATCGTAGCCTACTACTCAGGTAAGAAAGAACCCTTCGGATACATGGGAATGGTTTGAGCCATAATGGCCATCGGACTACTGGGCTTCATTGTGTGAGCTCACCACATGTTCACGGTAGGCATGGATGTAGACACGCGGGCATAT
130
Polyipnus clarus ACCAAGAGAGTTATCCAGTACCTTGCCAGCATTGCTGCAGTT---------CCCGGAGCAAAGAGGGA CCCCAGCAAGGGAACCTTGGAAGATCAAATCATCCAAGCCAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCGCGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATTTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCAGAGGAGTTGATGGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGATGACAGGTGCAATCATGCATTTCGGCAACATGAAGTTCAAGCAAAAACAGCGCGAGGAGCAAGCAGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTCGGCAATGAATTTGTCACTAAAGGGCAGGGTGTGGACCAAGTCTACTACAAGGCAGTGCGGTTCTCCTTCACCGTCATGTCTGTCTCGGTCCAGGCGGAGGGGGAGGACGAGGCC------------------GTCACCATCTTCAGGGAGGCCAAGCCC AACTCTGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTTGTGGACGAGTCTGATCACGAGACGCTGACGGGCGTCCTTGGGCCCGTGGTGGCGGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTTAGGGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCTTGGAGGCCTCTGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCKCCCACAACATGGTGCTTCACTCCATCACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCYGCGGACGAGCTCCGGGATCGGGTGAAAGGCGTCTCCGCCAAGCCCTTCTTGGAGACCCAGGCCACCCTGGACGCTCTGCACTGTGACATCGGCAATGCCACCGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTATAC---------------CGGAGGCCCAACCCGAGCA GGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTAGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACARCGGCAAGAGGCCCTCCGGGAGCTGATGGGGCTTTACATCCAAATGAAGGGCGAAGTCACCGAGAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTCGGC---TCC------GGA---CAAAC CGCCTTTTCC---TCCCAAGCACCC---GGC---TAC------------GCAGCCGCTGCCCTCGGA------------CACCACCACCACCCAACA------CATGTCAGCTCT---TACTCCACCGCCGCG---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC G---CAACACAGTCTCTTCGCATCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CCGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCGAGCCAC------GCG TCCTCAAATGTGGTTAAC---AGTCAGATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG AGCCGAC------CAGTATGGCCACGTTTCCAGCCCGCGT------TCCGAG---CACTACGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCG------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAGCAAGAGCTGATCTGCAAGTGGATCGAACCAGAACAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAGCATGTGGGGGGGCCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCCGAGTGCNCACCGGAKAGATAGTCGGCACAGCCTTGAGCTTGCTCATCCGGGCGGAATTAAGCCAACCGGGCGCGCTCTTAGGCGACGATCAAATCTACAATGTTTTAGTAACAGCACATGCATTCGTAATAATTTTCTTCATAGTTATACCCATCATGATCGGCGGTTTCGGGAACTGGCTCATCCCCCTCATGATCGGAGCCCCCGATATGGCTTTCCCTCGAATAAATAATATAAGCTTCTGGCTTCTACCCCCTTCTTTCCTCCTCCTCCTTGCCTCTTCAGGTGTTGAGGCCGGGGCTGGAACAGGCTGAACCGTTTACCCACCTCTCGCTGGAAATTTGGCCCACGCCGGAGCTTCCGTGGACCTCACTATTTTCTCCCTTCATCTCGCAGGCATTTCTTCCATTCTAGGGGCTATTAACTTTATTACTACAATTATTAACATGAAGCCCCCAGCTATCTCGCAATACCAGACACCCCTCTTCGTGTGAGCTGTTCTTGTCACCGCTGTCCTCCTCCTTCTTTCTCTCCCTGTTTTAGCGGCTGGGATTACAATACTTCTTACAGACCGAAACCTAAACACAACCTTCTTCGACCCCGCAGGAGGGGGTGACCCCATTCTTTATCAACACCTTTTCTGATTCTTTGGCCACCCAGAAGTATACATCCTTATTTTACCAGGCTTCGGCATGATCTCCCATATTGTTGCCTATTATTCAGGTAAAAAAGAGCCTTTCGGGTATATAGGAATAGTTTGAGCTATAATAGCAATCGGGCTCCTAGGCTTTATTGTCTGAGCCCACCACATGTTTACCGTCGGCATAGATNNNNNNNNNNNNNNNNNN
131
Polymetme thaeocoryla ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------CCCGGAGCAAAGAGGGA TCCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACGGCGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATTCTGAGGAATTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCATTACGGTAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCAGTGCGATTCTCCTTCACCGTCATGTCTGTCTCCGTGCAGGCTGAGGGGGAGGACAAGGCC------------------GTCACCATCTTCAGGGAGCCCAAGCCC AACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCATGAGATGCTGACGGGCGTCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGCACCGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACCCGGGCAGAGGCCTCCCACAACATGGTGCTGCACTCCGTTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCACAGATGAGCTTCGGGATCGGGTGAAAGGCGTCTCAGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGACGCACTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTAC---------------CGGAGGCCGAATGCAAGCA GGGAGGAACGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAAGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATCGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCAGGAGGCCCTCAGGGAGCTGATGGGGCTCTACCTCCAAATGAAGGGCGAAGTCACAGAAAGGGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC AGCGTTTTCC---TCCCAAGCGCCC---GGC---TAC------------GCAGCCGCTGCCCTCGGA------------CACCACCACCATCCGACA------CATGTCAGCTCG---TACTCCACTGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC G---CAACACAGTCTCTTCGCATCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCGGGACTTCACGAGCAAGCCGCGAGTCAT------GCG TCTTCAAATGTTGTTAAC---AGTCAGATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACCAGCCCACGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCAGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTAGAACATGTGGGGGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAAATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCGGAATTAAACCAACCCGGCACCCTTTTAGGAAACGACCAAATTTATAATGTAATTGTTACAGCACATGCCTTTGTAATAATCTTCTTCATAGTGATACCAATCATAATTGGAGGCTTTGGAAACTGACTAATCCCTCTTATGATTGGGGCTCCTGATATAGCCTTTCCCCGAATAAATAACATAAGCTTTTGGCTTCTCCCACCCTCCTTCCTCCTTCTACTTGCCTCCTCCGGAGTTGAAGCCGGGGCTGGGACTGGATGAACAGTCTATCCCCCACTTGCCGGCAATTTAGCCCACGCAGGGGCCTCCGTTGACCTAACCATTTTCTCCCTGCATCTTGCAGGGATCTCTTCAATCCTTGGGGCAATCAACTTTATTACCACAATTATTAACATGAAACCCCCAGCTATTTCCCAATACCAAACACCCCTCTTTGTCTGAGCTGTCCTTGTTACCGCTGTTCTTCTTCTCCTATCTCTCCCAGTCTTAGCTGCTGGAATTACCATGCTTTTGACAGACCGAAACCTGAACACGACCTTCTTTGACCCAGCAGGAGGGGGAGACCCCATTCTTTACCAACACCTCTTCTGATTCTTTGGGCACCCCGAGGTATATATTTTAATCCTTCCAGGCTTTGGTATAATCTCTCACATTGTTGCCTACTATTCAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
132
Vinciguerria nimbaria ACCAAGAGRGTCATCCAGTACTTTGCCAGCATTGCTGCGGTG---------GGYGGAGGCGAGAGGGA TACCAGCAAGGGAACAYTGGARGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCCTTTGGTAAYGCCAAAACATTGAGGAATGACAACTCATCCCGTTTTGGAAAATTCATCCGAATTCACTTTGGAACCASTGSCAAGYTGTCSTCTGCTGACATNGAGACTTACCTACTGGAAAAGTCCCGTGTCACCTTYCAGCTCAAGGCTGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCCAATCARAAGCCAGAGCTGCTGGACATGCTGCTGATYACCAACAACCCATATGACTACTCYTTCATCTCCCAAGGAGAGGTAACAGTACAGTCCATCAATGATTCAGAGGAAYTGATAGCYACTGAYAGYGCCTTTGATGTSCTTGGCTTCASTCAAGATGAGAARATGGGAATCTACAAGCTGAYCGGTGCCATYATGCAYTAYGGCAACATGAAGTTCAAGCAGARGCAGCGTGAGGAGCARGCTGAGCCTGAYGGAMCGGAGGCTGCCGACAAGGCAGCTTACCTGATGGGCCTGAACTCTGCAGACYTCATCAARGGACTGTGCCATCCCAGAGTCAAGGTAGGAAATGAATATGTCACCAAAGGCCAGGGTGTAGAACAAGTCTACTACAAGGCGGTGAGATTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGATAGATGGTATGGAAAAGCCA------------------GTAACTGTGTTCAGGGAGTCCAAACCC AACTCAGAGCTCTCCTGCAAACCTCTGTCTCTGATGTTCGTAGATGAGTCCGACCACGAGACACTGACGGGCATCCTCGGACCTGTGGTGGCTGAGAGGAATGCCATGAAGAACAGTCGCCTTATCCTGTCTCTGGGAGGCCTCCCTCGATCTTTCCGATTCCATTTCAGGGGCACGGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCTTGGAGGCCTCGGGCTCCACCTACATCTGCACTCTCTGTGACTCCACCCGGGTAGAGGCCTCCCACAATATGGTTCTGCACTCTGTCACCCGCACACATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACAAACCCTTATTCTGAGTCAGCTGATGAGCTTCGAGATCGGGTAAAAGGTGTCTCTGCCAAGCCTTTCTTGGAGACTCAGCCCACACTGGACGCACTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAAGATGAGATAGGGGAGGTGCAC---------------CAGAGGCCCAATCCGAGCA GGGAGGAGCGGCGGGGCTGGCGGGCTGCCCTGGACAAGCAGTTGAGGAGAAAGATTAAGCTGAGGCCAGTGATGAGGATGAATGGAAACTATGCCAGGCGACTGATGACAAGTGAGGCGGTGGAGGTGGTGTGCGAGCTGGTTCCCTCTGAGCCACGGCGGGAGGCCCTCAGGCAGCTAATGGCACTTTACCTCCAGATGAAGNNNNNNGTCACAGAACGAGAAGTGGCTTTGGGGATAAATCCGTTTGCAGACGGGATGGGTGCTTTCAAAATCAACCACAGTTCG------------CATGAT------CTTGGC---TCC------GGG---CAGAC GGCGTTCTCT---TCCCAAGCCCCC---GGC---TAT------------GCTGCAGCTGCCCTCGGC------------CATCACCACCATCCGACC------CACGTCAGCTCG---TACTCCACCGCCGCC---------TTCAATTCAACCCGGGACTTTCTCTTCAGAAATAGGGGCTTCGGAGACGCCACT---AGTGC CGCGCAACACAGTCTGTTCGCCTCCGCAGCG------GGAAGTTTTGCG---GGACCACATGGACATT CAGATGCGGCG---GGACACCTGCTCTTCCCGGGACTTCACGAGCAAGCCGCGAGCCAC------GCG TCCTCAAATGTTGTTAAC---AGCCAAATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG TGCCGAC------CAGTACGGCCATGTTACCAGCCCGCGT------TCAGAC---CACTATGCCTCGA CCCAGTTGCACGGCTACGGCCCT---ATGAACATGAATATGGCCGCG------CACCAT---GGT---GCTGGGGCCTTCTTCCGCTACATGAGGCAGCCGATAAAACAAGAACTTATCTGCAAGTGGATCGAACCGGAGCAACTGTCAAACCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTTGTGACCCACTTGACGGTGGAGCATGTGGGGGGACCAGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTCAGCGAGAGGGGAAACCGTTCAAAGCCAAATACAAACTCGTGAACCACATCAGAGTGCACACTGGAGAGATAGTTGGCACTGCCCTGAGTCTTCTTATCCGGGCAGAGCTGAGCCAGCCCGGGGCTCTCCTTGGTGATGACCAAATTTATAATGTAATCGTCACTGCGCACGCTTTCGTGATGATTTTCTTCATAGTAATACCTCTAATAATCGGAGGCTTCGGCAACTGGCTGATCCCCCTAATGATTGGGGCCCCCGACATGGCTTTCCCCCGAATGAACAATATGAGTTTCTGACTCCTCCCCCCTTCCTTCCTTCTCCTCTTGGCATCATCAGGTGTTGAGGCAGGAGCCGGAACAGGGTGAACTGTCTACCCCCCTTTGGCAGGCAATCTCGCGCATGCGGGAGCCTCAGTAGACCTAACCATCTTTTCGCTTCATTTAGCGGGCATCTCATCTATTCTAGGGGCCATCAACTTTATTACGACTATTATCAATATGAAGCCTCCTGCAATTTCTCAGTACCAGACCCCCCTATTTGTCTGAGCAGTCTTAGTCACAGCGGTCCTCCTACTACTCTCTCTCCCTGTTCTAGCTGCCGGCATCACAATGCTACTTACAGACCGAAACCTCAATACAACCTTCTTTGACCCTGCTGGGGGAGGAGACCCCATTCTCTACCAACACCTTTTCTGATTCTTTGGTCACCCAGAAGTCTACATCCTAATTCTCCCAGGGTTCGGAATGATCTCCCACATCGTCGCATACTACTCCGGCAAAAAAGAACCTTTCGGGTATATAGGAATAGTCTGAGCTATAATAGCAATTGGCCTCTTAGGCTTTATTGTCTGAGCACATCACATGTTTACTGTGGGGATGGATGTTGACACCCGAGCATAC
133
Yarrella blackfordi ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------GCCGGAGCMAAGAGGGA TACCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAGGAGTTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGGCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCCGTGCGATTCTCCTTCACCGTCATGTCTGTCTCCGTGCAGGCTGAGGGGGAGGACGAGGCC------------------GTCACCATCTTCAGGGAGCCCAAGCCC AACTCTGAGCTGTCYTGCAAGCCTTTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACCCGGGCAGAGGCCTCCCACAATATGGTGCTGCACTCCATTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCAGCCAAACCCTTCATGGAGACCCAGCCCACCTTGGACGCACTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTAC---------------CGGAGGCCGAACGCAAGCA GGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAACAGCTGAGGAGGAAGATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCRGGAGGCCCTCAGGGAGTTGATGGGGCTCTACCTCCAAATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTTGGC---TCC------GGG---CAAAC AGCGTTTTCC---TCCCAAGCACCC---GGC---TAC------------GCAGCTGCTGCCCTCGGA------------CACCACCACCATCCGACA------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC G---CAACACAGTCTCTTCGCATCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCAAGCCAT------GCG TCCTCAAATGTTGTTAAC---AGTCAGATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CATCAT---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCAGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAACATGTGGGGGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCGGAGTTAAACCAACCCGGTGCCCTTCTAGGCGACGACCAAATTTATAATGTCATTGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATAATCGGAGGCTTTGGAAACTGACTAATTCCTCTCATAATTGGCGCCCCCGACATAGCATTCCCCCGAATAAACAACATAAGCTTTTGGCTCCTCCCTCCCTCCTTTCTTCTCCTACTTGCCTCCTCCGGAGTTGAAGCCGGGGCCGGAACTGGCTGAACAGTCTACCCCCCTCTCGCCGGCAATTTAGCCCACGCAGGAGCTTCCGTCGACCTGACCATTTTCTCCCTCCATCTTGCAGGAGTTTCTTCAATCCTCGGATCAATCAACTTTATTACCACTATTATTAATATAAAACCCCCAGCCATCTCCCAATATCAGACACCCCTCTTCATCTGAGCCACTCTTGTTACCACTGTTCTTCTTCTTTTGTCTCTCCCGGTTCTAGCTGCTGGAATTACTATGCTTCTAACAGACCGAAACCTAAACACAACCTTCTTCGACCCGGCAGGGGGAGGAGACCCTATTCTCTACCAACACCTTTTCTGATTCTTTGGGCACCCGGAAGTATATATTCTAATTCTTCCAGGCTTCGGCATAATTTCCCATATTGTCGCCTATTATTCAGGAAAGAAAGAGCCCTTTGGTTATATGGGGATGGTCTGAGCTATAATAGCCATCGGACTTCTAGGCTTTATTGTTTGAGCCCATCACATGTTTACAGTCGGAATAGATGTAGACACCCGAGCCTAC
134
Astronesthes gemmifer ACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCTGCAGTC---------GGCGGAGCAAAGAGGGA TGCCAGTAAGGGAACCCTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGARGCGTTCGGCAATGCCAAAACGTTGAGGAACGACAACTCGTCTCGCTTTGGAAAATTCATCCGGATTCACTTTGGAACCAGTGGAAAGTTGTCCTCTGCAGACATCGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATAYGACTACTCYTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGYGCCTTCGATGTGCTKGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGGGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGAGAGAGGAGCAAGCAGAGCCCGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGCCTCTGYCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACAAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGACCGAGGATACRGACGAGGCC------------------GTCACTGTCTTCCGGGAGTCCAAGCCC AACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTYGTGGACGAGTCCGACCATGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTTATCCTGTCACTGGGGGGCCTCCCCCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTAGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTTGGAGTCTGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGATGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCAC---------------CGGAGGCCCAGCCCCAGCC GGGAGGAGAGGCGTGGCTGGCGTGCCGCGCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTATGCACGCCGGCTGATGACCGTCGAGGCGATTGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGAGAGGCCCTCCGGGAGCTGATGGCACTCTACCTCCAGATGAGGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTCGGT---TCA------GGC---CAAAC GGCGTTTTCC---TCCCAAGCTCCC---GGC---TAC------------GCAGCTGCTGCCCTCGGA------------CACCACCACCACCCGACC------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGATGCCACC---AGTGC G---CAACACAGTCTCTTCGCGTCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGGCACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCGAGCCAC------GCG TCCTCAAATGTCGTTAAC---AGTCAAATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAT------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTACGGCCCT---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTCCGCTACATGAGGCAACCGATCAAACAAGAGCTGATCTGCAAGTGGATCGAACCAGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAGCATGTCGGGGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCGTTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATGGTCGGCACAGCTTTAAGCCTGCTCATTCGGGCGGAGCTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATTTATAATGTTATCGTTACAGCACATGCTTTCGTTATAATCTTCTTTATAGTAATGCCCATCATGATTGGAGGCTTCGGGAACTGGCTAATTCCCTTAATGCTAGGGGCCCCCGACATGGCCTTCCCTCGCATAAATAATATGAGCTTCTGGCTCCTCCCCCCATCCTTCCTTCTTCTGCTAGCCTCTTCAGGCGTAGAAGCTGGGGCCGGGACAGGATGAACTGTCTACCCCCCTCTTGCCGGGAACTTAGCCCACGCAGGAGCCTCCGTCGACTTAACAATCTTCTCCCTCCACCTTGCAGGAATCTCCTCAATTCTAGGGGCCATCAACTTTATCACAACTATTATCAACATGAAGCCCCCCGCCGTCTCTCAGTACCAAACACCCCTCTTCGTCTGAGCAGTCCTAATTACTGCTGTCCTACTACTTCTTTCTCTTCCAGTCCTAGCCGCTGGCATCACCATGCTTCTTACGGACCGAAACCTTAATACAACCTTCTTTGACCCCGCAGGGGGCGGAGACCCCATTCTTTATCAGCACCTCTTTTGGTTTTTTGGCCACCCAGAAGTCTACATCCTCATTCTTCCAGGCTTCGGAATAATTTCCCACATCGTTGCCTACTACGCAGGAAAGAAAGAACCCTTCGGCTACATAGGAATGGTCTGAGCCATGATGGCCATCGGACTCCTGGGCTTTATTGTTTGAGCCCACCACATGTTTACAGTAGGAATGGATGTAGACACTCGAGCCTAC
135
Borostomias elucens ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTC---------GGCGGAGCAAAGAGGGA TGTCAGCAAGGGAACCTTGGAGGATCAAATCATCCAAGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACTTTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGATAGGTGCAATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGCGCGGACGAGGCC------------------GTCACCGTCTTCCGGGAGTCCAAGCCA AACTCCGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTTGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGGCTCCCTCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTACGCGAGATGGAGGGGCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCATGACGAGAACGTGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCGGAGAGCGCAGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCAC---------------CAGAGGCCCAGCCCCAGCC GGGAGGAGCGGCGCGGCTGGCGCGCAGCGCTGGACAAGCAGCTGAGGAGGAAGATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGTGGAGGCGGTGGAGGCGGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CATGAT------CTCGGT---TCT------GGC---CAAAC GGCGTTTTCC---TCCCAAGCACCC---GGC---TAC------------GCAGCTGCTGCCCTCGGG------------CACCACCACCACCCGACA------CACGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCAACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGTGC G---CAACACAGTCTCTTCGCATCCGCAGCG------GGAAGTTTTGCA---GGACCACATGCACACT CAGATGCCGCG---GGACACCTGCTCTTCCCAGGACTTCACGAGCAAGCCGCGAGCCAT------GCG TCCTCAAATGTTGTTAAC---AGTCAAATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGCCG GGCCGAC------CAGTATGGCCACGTTACCAGTCCGCGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCACA------CATCAC---GGA---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATTAAACAAGAGCTGATCTGCAAGTGGATCGAACCAGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAGCATGTGGGTGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATACAAACTTGTGAACCACATCAGAGTGCACACCGGAGAGATGGTCGGCACAGCTTTAAGCCTGCTAATCCGAGCAGAGTTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATTTACAACGTTATCGTGACAGCACATGCTTTCGTAATAATCTTCTTTATAGTAATACCCATCATGATCGGGGGGTTTGGAAACTGACTGCTCCCCCTTATGATTGGGGCTCCTGATATGGCTTTCCCCCGAATAAATAACATGAGCTTCTGACTCCTCCCTCCCTCCTTCCTTCTCTTATTGGCCTCTTCAGGCGTCGAGGCTGGAGCCGGAACCGGGTGAACCGTGTACCCGCCTCTTGCAGGAAACCTGGCCCATGCAGGGGCCTCCGTTGACTTAACGATCTTTTCACTTCACCTAGCAGGGATCTCCTCAATCCTAGGGGCCATCAACTTTATTACCACGACTATCAACATGAAGCCCCCAGCAATCTCCCAATACCAGACACCCCTATTCGTTTGAGCCGTCCTTGTCACTGCAGTCCTACTCCTCCTGTCCCTCCCAGTCTTAGCCGCTGGAATTACCATGCTTCTAACAGACCGAAACCTAAATACAACCTTCTTTGACCCGGCAGGGGGAGGAGACCCCATTCTCTACCAACACCTCTTCTGATTCTTTGGCCATCCGGAGGTCTACATCCTGATCCTCCCCGGCTTCGGGATAATCTCCCACATTGTTGCCTACTACTCAGGAAAGAAAGAACCCTTTGGCTATATAGGGATAGTCTGAGCCATGATGGCCATTGGCCTCCTGGGGTTTATTGTCTGAGCCCATCACATGTTTACAGTGGGCATGGACGTAGATACTCGAGCCTAC
136
Chirostomias pliopterus ACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTT---------GGTGGAGCAAAGAGGGA TGCCAGCAAGGGAACCTTGGAGGATCAAATCATCCAGGCTAACCCTGCCCTGGAGGCTTTCGGCAATGCTAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGAATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTTGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACTGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAAGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCCGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACAAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAAGGCGCGGATGAGGCT------------------GTCACCGTCTTCCGGGAGTCCAAGCCC AACTCTGAGTTGTCCTGTAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGAGGCCATGAAGAGCAGCCGCCTCATCCTGTCCCTGGGGGGCCTCCCCCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACCTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACRTGGAACGCTACGAGATCTGGAGGACCAACCCTTACTCGGAGTCTGTGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCTACCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACTGAGTTCTAYAAGATCTTCCAGGACGAGATCGGGGAGGTGCAC---------------CGGAGGCCCARCCCCAGCC GGGAGGAGCGGCGCAGCTGGCGCRCCGCRCTGGACAAGCAGCTGAGGAAGAAGATGAAGCTGAGGCCCGTGATGAGGATGAACGGAAACTACGCCCGCCGGCTGATGACTGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGGGCGAGGTCACAGAAAGAGAAGTGGCGTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCTTTCAAAATCAACCACAGCTCG------------CACGAT------CTCGGT---TCA------GGC---CAAAC GGCGTTTTCC---TCTCAAGCACCC---GGC---TAC------------GCAGCTGCTGCCCTCGGA------------CACCACCATCACCCGACA------CATGTCAGCTCT---TACTCCACCGCGGCT---------TTCAACTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGCGC G---CAGCATAGCCTCTTCGCATCCGCAGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGGCACCTGCTCTTCCCGGGACTTCACGAGCAAGCCGCGAGCCAC------GCG TCCTCAAATGTTGTTAAC---AGTCAAATGCGGTTG---GGCTTT---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACCAGCCCGCGG------TCCGAC---CACTACGCTTCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CATCAC---GGG---GCAGGGGCCTTCTTCCGTTACATGAGGCAGCCGATAAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAACTAACGAATCCGAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTGGTGACCCATTTGACGGTGGAGCATGTGGGGGGACCGGAGCAGTCGAACCATATTTGCTTCTGGGAAGAGTGTGCCCGAGAAGGAAAACCATTCAAAGCCAAATATAAACTTGTGAACCACATCCGAGTGCACACCGGAGAGATGGTCGGTACAGCTTTAAGCTTACTCATCCGAGCAGAGCTAAGTCAACCCGGTGCCCTTCTGGGCGACGACCAGATTTACAATGTTATCGTTACAGCGCACGCTTTTGTGATAATCTTCTTTATGGTCATGCCCCTCATGATTGGAGGCTTCGGGAACTGACTAATCCCCCTAATAATTGGGGCCCCAGATATAGCCTTCCCTCGAATAAACAATATAAGCTTTTGACTTCTCCCCCCCTCCTTTCTCCTTCTCCTTGCCTCTTCAGGAGTTGAGGCTGGAGCCGGGACCGGGTGGACCGTTTACCCCCCTCTTGCCGGAAACCTGGCCCACGCGGGAGCCTCCGTTGACCTGACTATCTTCTCGCTTCACCTAGCAGGAATTTCCTCGATTTTAGGGGCAATTAACTTTATTACTACAATCATTAACATGAAGCCCCCAGCCATCTCCCAGTACCAAACGCCCCTCTTCGTCTGAGCTGTTCTCGTCACCGCCGTTCTTCTCCTTTTATCCCTTCCCGTCTTAGCCGCTGGCATCACTATACTCCTCACAGACCGAAACCTAAACACAACTTTCTTTGACCCCGCGGGCGGAGGAGACCCCATTCTTTACCAACACCTCTTCTGATTCTTCGGCCACCCGGAGGTCTACATTCTAATTCTTCCAGGCTTCGGGATGATTTCCCATATTGTTGCCTACTACTCCGGGAAGAAAGAACCCTTTGGTTATATAGGAATAGTCTGAGCCATGATGGCCATCGGACTCCTTGGCTTCATCGTTTGAGCCCATCACATGTTTACCGTAGGGATGGACGTGGACACCCGAGCCTAC
137
Ateleopus japonicus NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGGCGGTCCGCTTCTCCTTCACCGTTATGTCAGTCTCTGTCCGGGTCGAAGGAACGGAAGAGGCG------------------GTCACCGTCTTCAGGGAGCCGAAGCCC AACTCTGAATTGTCCTGTAAACCCCTCTGTCTGATGTTTGTGGATGAGTCTGACCACGAGACCCTGACAGCCATTCTGGGGCCTCTGGTGGCCGAGCGGAATGCGATGAAGCAGAGCCGCCTGATCCTGTCATTGGGCGGCCTCCCGCGCTCTTTCTCCTTCGAGTTCCGAGGCACGGGCTACGACGAGAAGATGGTGCGAGAGTTGGAGGGCATGGAGGCCTCTGGTTCCACCTACGTCTGCACCCTGTGCGACTCCACCCGGGCGGAGGCCTCTCGAAACATGGTGCTCCACTCCATCACCCGGAGCCACGGCGAGAACCTGGAGCGGTACGAGATGTGGAGGAGCAACCCTTTCTCGGAGTCGGCCGAGGAGCTGCGGGAGCGGGTCAAGGGYATCTCCGCCAAACCCTTCCTGGAGACCCAGCCCACTTTGGATGCATTGCACTGCGACATTGGCAACGCCACCGAGTTTTATAAGATCTTCCAGGATGAAATCGGGGAGGTGTTC---------------CGGGGGACCAACCCCAGCA GAGAAGAGCGGAGGAGCTGGAGGACRGCGCTGGACAAGCAACTGAGGAARAGGATGAAGCTGAAGCCTGTGATGAGGATGAATGGTAACTACGCCCGCCGGCTGATGACCCATGACACTGTGGAGGTGGTGTGCGAGCTGGTGCCCTCGGAGGAGCGGCGGGAGGCGCTGAGGGAGTTGATGGGCCTCTACCTCGAGATGAAG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTAGGCACAGCCCTAAGCTTACTAATTCGAGCTGAATTAAACCAACCCGGTGCTCTTCTGGGAGACGACCAGATTTATAATGTAATTGTTACAGCACATGCCTTTGTAATAATCTTCTTTATAGTCATACCTATCATAATTGGAGGTTTCGGCAACTGACTAATCCCACTAATGATTGGTGCTCCTGACATAGCATTTCCCCGAATAAACAACATAAGTTTCTGACTTCTACCCCCTTCATTTCTGCTACTATTAGCTTCTTCTGGGGTTGAAGCAGGGGCTGGAACAGGCTGAACTGTTTACCCCCCTTTAGCCGGTAACTTAGCCCATGCTGGTGCCTCTGTAGATTTAACAATCTTCTCACTACACTTAGCAGGGGTCTCCTCTATCTTGGGTGCCATTAATTTCATTACTACTATTATTAATATAAAACCCCCAGCCGTCTCACAATATCAAACTCCTTTATTTGTCTGATCTGTACTTATTACAGCTGTACTACTTCTTCTCTCTCTCCCTGTGCTTGCTGCTGGTATTACAATATTACTCACAGACCGAAATTTAAATACGACATTCTTTGACCCTGCAGGAGGAGGAGACCCAATCTTATACCAACACTTATTCTGGTTCTTCGGTCACCCCGAAGTTTATATTCTTATTCTCCCTGGGTTCGGCATGATCTCACACATTGTAGCCTACTACTCCGGCAAAAAAGAACCTTTCGGATATATGGGCATGGTCTGAGCTATAATAGCCATCGGCCTCCTTGGGTTTATCGTATGGGCTCACCATATGTTTACAGTAGGGATGGACGTAGACACACGAGCCTAC
138
Ijimaia antillarum ACCAAGAGGGTCATCCAGTACTTTGCCAGCATTGCTGCAGTC------GGTGGTGGAGGTAAGAAAGA TTCAAGCGAAGGGACACTGGAGGATCAAATCATTCAGGCAAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACAGTGAGGAATGATAACTCATCCCGCTTTGGGAAATTCATCCGAATTCACTTTGGAACCAGTGGCAAATTGTCCTCTGCCGACATTGAGACTTATCTCCTGGAGAAGTCACGTGTTACCTTTCAGCTCAAGGCTGAGAGGAACTATCACATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGATGTTGGTCACCAACAACCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATGCAGAGGAGCTGATTGCCACTGACAGTGCCTTTGATGTCCTCGGCTTCACCCAGGAGGAGAAGCTGGGAGTTTACAAGTTGACAGGTGCGATCATGCACTATGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAAGAGCAGGCTGAGTCTGATGGCACAGAGGCTGCTGATAAGTCAGCTTATCTAATGGGGCTGAATTCTGCCGACCTCATTAAAGGGCTTTGCCATCCCAGAGTCAAAGTAGGAAATGAGTACGTCACCAAAGGCCAAGGTGTAGATCAGGTCTACTACAAGGCGGTCCGCTTCTCCTTCGCCATTATGTCAGTCTCTGTCCGGGTCGAAGGAACGGAAGAGGCG------------------GTCACCGTCTTCAGGGAGCCGAAGCCC AACTCTGAATTGTCCTGTAAACCCCTCTGTTTGATGTTTGTGGATGAGTCTGACCATGAGACCCTGACGGCCATTCTGGGGCCTTTGGTGGCCGAGCGGAATGCGATGAAGCAGAGCCGCCTGATCCTGTCATTGGGCGGCCTCCCGCGCTCTTTCTCCTTTGAGTTCCGAGGCACGGGCTACGACGAGAAGATGGTGCGAGAGTTGGAGGGTATGGAGGCCTCTGGTTCCACCTACGTCTGCACCCTGTGCGACTCAACCCGAGCGGAGGCCTCTCGAAACATGGTGCTCCACTCCATCACCCGGAACCACGGCGAGAACCTGGAGCGGTACGAGATGTGGAGGAGCAACCCTTTCTCGGAGTCGGCCGAGGAGCTGCGGGAGCGGGTCAAGGGCATCTCTGCCAAACCCTTCCTGGAGACCCAGCCCACTTTGGATGCATTGCACTGCGACATTGGCAACGCCACCGAGTTTTACAAGATCTTCCAGGATGAAATCGGGGAGGTGTTC---------------CGGGGGACCAACCCCAGCA GAGAAGAGCGGAGGAGCTGGAGGACGGCGCTGGACAAGCAACTGAGGAAGAGGATGAAGCTGAAGCCTGTGATGAGGATGAATGGTAACTACGCCCGCCGGCTGATGACCCATGACACTGTGGAAGTGGTGTGCGAGCTGGTGCCCTCGGAGGAGCGGCGGGAGGCGCTGAGGGAGTTGATGGGCCTCNNNNNNNNNNNNNNNGGCGAAGTCACAGAGAGAGAGGTAGCTTTGGGGATAAATCCATTCGCAGACGGGATGGGCGCCTTTAAGATCAAC CACACTTCT------------CACGAC------ATCGGC---TCC------GGG---CAGA CGGCGTTTTCT---TCCCAGGCGCCC---GGG---TAC---------GCTGCCGCGGCCGCCCTGGGG ---------CACCACCACCACCACCCGACC------CATGTCAGCTCG---TACTCCACGGCGGCT---------TTCAACTCCACTCGGGACTTTCTGTTCAGAAACCGGGGCTTCGGAGACGCCACC---GGCG CG---CAGCACAGCTTGTTCGCCTCG------------GGAGGTTTTGCG---GGGCCACATGGACAC TCGGACGCCRCG---GGACACCTGCTCTTCCCGGGGCTCCACGAGCAAGCCGCGGGCCAC------GC GTCGTCCAATGTGGTGAAC---AGCCAGATGCGCTTG---GGTTTT---TCAGGGGACGTGTACGGGA GGGCCGAA------CAGTACGGCCACGTTACGAGCCCGAGG------TCAGCAGAGCACTATGCCTCG ACCCAGTTGCACGGCTACGGCCCC---ATGAACATGAACATGGCCGCG------CACCAC---GGA---GCGGGGGCCTTCTTCCGATACATGCGCCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAAC CGGAGCAGCTGACCAACCCCAAAAAGTCGTGCAACAAAACTTTCAGCACCATGCACGAGCTGGTCACCCACCTGACGGTGGAGCATGTGGGGGGGCCGGAGCAGTCGAACCACATTTGCTTCTGGGAGGACTGCTCCCGGGAAGGGAAACCGTTCAAAGCCAAATACAAACTTGTGAATCACATTAGAGTGCACACCGGAGAGATAGTAGGCACAGCCCTAAGCTTACTAATTCGAGCTGAACTAAATCAACCCGGCGCTCTTCTGGGAGACGACCAGATTTACAATGTAATTGTTACAGCACATGCCTTTGTAATAATTTTCTTTATAGTTATACCCATCATAATTGGGGGCTTTGGTAACTGACTAATCCCACTAATAATTGGCGCCCCTGACATAGCGTTTCCTCGAATAAACAACATAAGCTTTTGGCTTTTACCCCCCTCATTTCTATTACTACTAGCTTCTTCTGGGGTTGAAGCAGGAGCTGGAACGGGATGAACTGTTTACCCTCCCTTAGCTGGTAACCTAGCCCATGCTGGTGCCTCCGTAGATCTAACAATCTTCTCACTCCACTTAGCAGGTGTTTCATCTATCTTAGGAGCCATCAATTTTATTACCACTATTATTAATATAAAACCCCCAGCTATCTCACAGTATCAAACTCCTCTGTTTGTTTGATCCGTACTTATTACAGCTGTTCTACTTCTTCTCTCTCTCCCCGTGCTTGCTGCCGGCATTACAATATTACTTACAGATCGAAACTTAAACACAACATTCTTTGATCCTGCAGGAGGAGGGGATCCTATCTTATACCAACACTTATTCTGGTTCTTTGGCCACCCTGAGGTTTATATTTTAATTCTCCCCGGATTTGGTATAATCTCACACATCGTAGCCTACTACTCTGGGAAAAAAGAGCCTTTCGGGTATATAGGCATGGTCTGGGCCATAATGGCCATCGGCCTCCTCGGATTTATCGTGTGAGCTCACCACATATTCACAGTAGGAATAGACGTAGACACACGAGCTTAC
139
Synodus foetens ACTAAACGAGTCATCCAGTATTTTGCCAGTATTGCTGCTGTT------GGTGGTGGAGGAAAAAAGGA TTCAAGTAAAGGAACCCTGGAGGATCAAATCATTCAGGCCAACCCTGCACTGGAAGCCTTCGGGAATGCTAAGACAGTGAGGAACGATAATTCCTCCCGTTTTGGAAAATTCATCCGCATTCACTTTGGAACCAGCGGCAAACTTTCATCAGCAGATATTGAGACTTATCTGCTAGAGAAGTCACGGGTCACCTTTCAGCTTAAGTCTGAGAGGAACTATCACATCTTCTTTCAGATCTTATCAAATCAAAAGCCTGAGCTGCTTGACATGCTGTTGATCACCAACAATCCTTACGACTACTGTTACATTTCCCAAGGAGAGGTTACTGTAGCATCCATCAATGACTCGGAGGAGCTAATGGCCACCGATAATGCTTTTGATGTACTTGGATTCACTCAAGAGGAGAAGATGGGGATCTACAAGTTGATAGGAGCAATCATGCACTACGGCAACATGAGGTTCAAACAGAAGCAACGTGAGGAACAGGCTGAGCCTGACGGTACAGAGGCTGCTGATAAGTCAGCTTACTTAATGGGGCTGAATTCAGCCGATCTCATCAAAGGACTCTGCCATCCCAGAGTAAAAGTAGGAAATGAGTATGTCACCAAAGGTCAGGGTGTAGATCAAGTCTATTATAAGGCTGTGCGCTTTTCCTTTACCATCATGTCAATTTTTATCAAAGCAGATGGAGAGGAGGAAGCA------------------GTTGTCATCTTCAGTGAACCAAAACCC AACTCTGAATTGTCATGTAAGCCATTATTTCTGATGTTTGTGGATGAGTCTGACCACGAGACACTCACAGCTGCTCTGGGGCCTCTGATAGAAGAGAGAAATGCCATGAAGGAGAGCCAACTCATTCTCTCGATGGGTGGTCTCCCCCGGTCTTTCAGCTTTCATTTCAGAGGCACCGGATATGATGAGAAGATGGTGCGAGAGATGGAAGGCCTGGAGGCCTCAGGCTCCACCTATGTCTGCACTCTTTGTGATTCCACCCGTGCTGAGGCCTCTCAAAACATGGTGCTCCACTCTGTCACACGCAACCACACTGAGAATCTTGAGCGCTATGAGTTATGGAGGACCAACCCCTTCAGTGAGTCAGCAGCAGAGCTACGAAACCGGGTCAAAGGGGTCTCTGCAAAGCCCTTTATGGAGACCCAGCCGACTCTGGATGCCCTACACTGTGACATTGGAAATGCCACAGAATTCTACAAAATCTTCCAGGATGAGATTGGGGAAGTGTTC---------------CAGAGGAACAATCCTAGCC GGGAGGAACGGCGCAGCTGGAGGGCAGCCCTCGATAAGCAGCTGAGGAAGAAGTTAAAGCTGAAACCAGTGATGCGGATGAATGGTAACTAYGCCCGGAGGCTGATGACCCAGGAAGCCGTGGAGGCAGTGTGTGAACTGGTGCCCTCAGAAGAGAGGCGGGAGGCCCTGAGGGAGCTGATGGGGCTCTATCTGCAGATGAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAAACCACAGCTCG------------CACGAC------ATTGGC---TCC------GGG---CAAAC AGCGTTTTCG---TCTCAGGCACCC---GGC---TAT------------GCAGCGGCCGCCCTGGGG------------CACCATCACCACCCGACC------CACGTTAGTTCG---TACTCCACGGCAGCT---------TTCAATTCCACCAGGGACTTTCTGTTCAGAAACCGGGGCTTCGGAGACGCCACG---AGTGC G---CAGCACAGCTTATTCGCCTCCGCCGCG------GGAAGTTTCGCA---GGGCCACATGGACACT CCGATGCCGCG---GGACACCTGCTCTTTCCGGGGCTTCACGAGCAAGCCGCGAGCCAC------GCG TCGTCTAACGTCGTTAAC---AGCCAGATGCGACTG---GGCTTT---TCAGGGGACATGTACGGGCG GGCCGAG------CAGTACGGACACGTTACCAGTCCGCGG------TCCGAC---CACTACGCTTCGA CCCAGTTACATGGTTACAGCCCC---ATGAACATGAATATGGCCGCA------CACCAC---GGT---GCGGGGGCCTTCTTTCGATACATGAGGCAGCCGATTAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAGCTGACGAATCCCAAAAAATCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCAGAGCAATCAAACCATGTTTGCTTTTGGGAAGACTGTTCTCGCGAAGGAAAACCGTTCAAAGCCAAATACAAACTTGTGAATCATATCAGAGTCCACACCGGAGAAATAGTAGGTACAGCTTTAAGCTTATTAATTCGAGCCGAACTAAGCCAGCCTGGGGCTCTTCTGGGAGATGACCAAATTTACAACGTCATCGTCACGGCCCACGCATTTGTTATGATCTTTTTTATAGTAATACCAATCATGATCGGGGGATTCGGGAACTGGTTAATTCCACTGATAATCGGCGCACCTGATATGGCATTCCCCCGAATGAACAACATAAGCTTCTGGCTGCTGCCCCCTTCTTTTTTACTACTCCTTGCTTCCTCTGGAGTAGAAGCAGGGGCAGGTACCGGTTGAACTGTGTACCCCCCCTTATCGGGCAACCTCGCCCATGCCGGAGCTTCAGTAGATTTAACAATTTTTTCCCTGCACTTAGCCGGGATCTCGTCCATTCTAGGAGCAATCAACTTTATTACGACTATTATCAACATAAAACCTCCCTCAATTTCCCAATATCAGACACCTCTATTCGTATGAGCTGTCCTGATTACAGCGGTACTTCTGCTTCTTTCCCTCCCAGTCCTGGCAGCAGGTATTACTATACTGCTAACTGACCGTAACCTTAACACCACATTCTTTGACCCCGCAGGGGGAGGAGACCCCATCCTGTACCAGCACCTATTCTGATTCTTTGGCCACCCTGAAGTCTACATTTTAATTCTTCCTGGTTTTGGGATAATCTCTCACATCGTTGCATACTATGCCGGGAAGAAAGAACCCTTCGGGTATATGGGAATGGTCTGGGCCATAATAGCAATTGGACTACTAGGTTTCATCGTATGAGCTCACCACATGTTCACAGTCGGAATGGACGTGGACACACGTGCTTAC
140
Chlorophthalmus agassizii ACCAAAAGAGTCATCCAATATTTTGCCAGCATTGCTGCTGTT---------GGTGGTGGAAAAAGGGA CACAAGCAAGGGAACCCTGGAGGATCAAATCATTCAGGCGAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACACTGAGGAACGATAATTCCTCCCGTTTTGGAAAATTCATCCGAATCCACTTTGGAAACAGTGGTAAACTGTCCTCTGCGGACATTGAGACCTACCTGCTGGAGAAGTCACGGGTCACCTTTCAGCTTAAGGCAGAGAGGAACTACCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTACTGATCACCAACAACCCCTATGACTACTCGTACATCTCCCAAGGAGAAGTAACCGTAGCATCCATCAATGATTCAGAGGAGCTGATGGCCACTGACAGTGCCTTTGATGTGCTTGGCTTCACGCAAGAGGAGAAGATGGGAGTCTACAAGTTGATAGGGGCCATTATGCACTATGGCAACATGAGGTTCAAGCAAAAGCAACGTGAGGAGCAGGCTGAGCCTGATGGTACAGAGGCTGCTGATAAGTCAGCTTATCTAATGGGGCTGAATTCGGCAGACCTAATCAAAGGACTCTGCCATCCCAGAGTCAAGGTAGGAAATGAGTATGTCACCAAAGGCCAGGGTGTAGATCAAGTCTACTACAAGGCTGTGCGCTTCTCTCTCACTGTCATGTCTGTCTCTTTCCAGGCCGAGGGAGGGGAGGAGGCG------------------GTTGTCATCTTCAGGGAGCCAAAGCCC AACTCTGAACTTTCCTGTAAGCCCCTTTGCCTGATGTTTGTGGACGAGTCTGACCACGAGACGCTCACCGCTGTCCTGGGGCCTCTGGTAGCGGAGAGGAATGCGATGAAGCAGAGCCGACTCATCCTCGAGGTGGGCGGCCTCCCCCGCTCTTTCCGCTTCCACTTCAGAGGCACAGGCTACGATGAGAAGATGGTGCGAGCGATGGAGGGCATGGAGGCCTCAGGCTCCACCTATGTCTGCACTCTCTGTGACTCCACTCGGGCAGAGGCCTCTCACAATATGGTGCTCCACTCTGTCACGCGTGGCCATGATGAGAACCTGGAGCGCTACGAGATATGGAGGACCAACCCCTTCTCGGAGTCTGCCATGGAGCTGCGAGATCGGGTCAAAGGGGTCTCTGCCAAACCATTTATCGAGACCCATCCGACTATGGATGCGTTACACTGTGACATAGGCAATGCCACTGAATTCTACAAAATCTTCCAGGATGAGATTGGGGAGGTGTTC---------------CAGAAGGCCAACCCCAGCC GGGAGGAACGGCGCAGCTGGAGGGCAGCCCTCGATAAACAGCTGAGGAAGAAGTTGAAGCTGAAACCAGTGATGCGGATGAATGGGAACTACGCCCGAAGGTTGATGACCCAGGAGGCTGTGGAGGTGGTGTGTGAGCTGGTGCCCTCAGAAGAGAGACGGGAGGCCCTGAGGGAGCTGATGGGGCTCTATATACAGATGAAGGGCGAAGTCACAGAAAGAGAGGTGGCTTTGGGGATAAATCCTTTCGCAGACGGGATGGGCGCCTTCAAAATAAACCACAGCTCT------------CATGAC------ATTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCAGCGGCTGCACTGGGA------------CACCATCACCACCCGACC------CACGTTAGCTCC---TATTCCACGGCAGCT---------TTCAATTCCACCCGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGATGCCACC---AGCGC G---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGCCACCTGCTCTTCCCTGGGCTTCATGAGCAAGCCGCGAGCCAT------GCG TCGTCTAACGTTGTAAAC---AGCCAGATGCGACTG---GGCTTT---TCTGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACAAGCCCAAGG------TCCGAC---CACTATGCTTCGA CCCAATTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCT------CACCAC---GGA---GCAGGGGCCTTCTTTCGGTACATGAGGCAGCCGATTAAACAAGAGCTTATCTGCAAGTGGATCGAACCGGAGCAACTGACGAATCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCATGAGCTCGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCCGAGCAGTCGAACCACATTTGCTTCTGGGAAGACTGTGCCCGAGAAGGGAAACCATTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTTCACACCGGAGAAATGGTAGGCACAGCCTTAAGCCTCCTTATTCGGGCAGAACTAAGCCAGCCCGGAGCCCTTCTAGGCGACGACCAGATTTACAATGTTATCGTTACAGCCCACGCCTTTGTAATGATTTTCTTCATAGTAATGCCAATTATGATTGGAGGGTTTGGAAACTGGCTCATCCCGCTTATGATTGGAGCCCCCGACATGGCATTTCCCCGGATAAATAACATGAGCTTCTGGCTTCTTCCTCCATCTTTCCTCCTCCTCCTCGCTTCCTCTGCAGTAGAAGCAGGAGCCGGCACAGGGTGAACAGTCTACCCTCCTCTTGCCAGTAATCTAGCGCACGCCGGAGCCTCTGTTGACCTAACCATCTTTTCGCTTCACCTAGCAGGAATTTCCTCCATCTTGGGTGCTATCAACTTTATTACAACCATCATTAATATGAAGCCCCCAGCAATTACTCAATATCAAACCCCCCTATTTGTATGAGCAGTTCTGATTACCGCCGTCCTTCTTCTCCTATCCCTCCCTGTTTTAGCAGCAGGCATTACGATGCTTCTTACTGATCGTAATCTAAACACAACGTTCTTCGACCCGGCGGGGGGAGGAGACCCAATCCTCTATCAACACCTATTCTGATTCTTTGGCCACCCAGAGGTTTATATTTTAATTCTTCCAGGCTTTGGTATAATCTCCCATATTGTTGCTTACTACTCGGGTAAAAAAGAACCTTTCGGCTACATGGGTATAGTTTGAGCCATGATAGCAATTGGCCTTCTTGGGTTCATTGTTTGGGCTCACCACATGTTTACAGTCGGGATGGACGTAGACACACGTGCCTAC
141
Benthalbella dentata ACCAAAAGAGTCATCCAATATTTTGCCAGCATTGCTGCAGTT---------GGTGGTGGAAAAAAGGA TACAAGCAAGGGAACCCTGGAGGATCAAATCATTCAGGCAAACCCTGCACTGGAGGCTTTTGGCAATGCCAAAACATTGAGGAACGATAATTCCTCCCGTTTTGGAAAATTCATCCGAATCCACTTTGGAACCAGTGGTAAACTGTCCTCTGCGGACGTTGAGACCTACCTGCTGGAGAAGTCACGGGTCACTTTTCAGCTTAAGGCAGAGAGGAACTACCACATCTTTTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGCTGGACATGATGTTGATCACCAACAACCCCTATGACTACTGCTACATCTCCCAAGGAGAAGTAACCGTAGCATCCATCAATGATTCAGAAGAGCTGATGGCCACTGACAGTGCCTTTGATGTGCTTGGCTTCACGCAAGAGGAGAAGATGGGAGTCTACAAGTTGATAGGGGCCATTATGCACTATGGCAACATGAGGTTCAAGCAAAAGCAGCGTGAGGAACAGGCTGAGTCTGATGGTACAGAGGCTGCTGATAAGTCAGCTTATCTAATGGGGCTGAATTCAGCAGACCTAATCAAAGGACTCTGCCATCCCAGAGTCAAGGTAGGAAATGAGTATGTCACCAAAGGCCAGGGTGTAGATCAAGTCTACTACAAGGCTGTGCGTTTCTCTATCACCGTCATGTCTGTCTCTGTCCAGGCCGACGGAGAGGAGGAGGCG------------------GTTGTCATCTTCAGGGAGCCAAAGCCC AACTCTGAACTGTCCTGTAAGCCCCTGTGCCTGATGTTTGTGGATGAGTCTGACCACGAGACACTCACTGCTGTCCTGGGGCCTTTGGTAGCAGAGAGGAATGCGATGAAGCAGAGCCGACTCATCCTCTCAGTGGGTGGCCTCCTCCGCTCTTTCCACTTCCACTTCAGAGGCACAGGCTATGACGAGAAGATGGTGCGAGAGATGGAAGGCCTGGAGGCCTCAGGCTCCACCTATATCTGCACTCTTTGTGACTCCACTCGGGCAGACGCCTCTCACAACATGGTGCTCCACTCTGTCACGCGCAGCCACGATGAGAACCTGGAGCGCTACGAGATATGGAGGACCAACCCCTTCTCRGAGTCTGTCATGGAGCTGCGAGATCGGGTCAAAGGGGTCTCTGCCAAACCATTTATCGAGACCCATCCGACTATGGATGCATTACATTGTGACATAGGTAATGCCACTGAATTCTACAAAATCTTCCAGGATGAGATTGGGGAGGTGTTC---------------CGGAAGGCCAGCCCTAGCC TGGAGGAACGGCGCAGCTGGAGGGCAGCCCTCGATAAACAGCTGAGGAAGAAGTTGAAGCTGAAACCAGTGATGCGGATGAATGGGAACTATGCCCGAAGGTTGATGACCCAGGAGGCTGTAGAGGTGGTGTGTGAACTGGTGCCCTCAGAAGAGAGACGGGAGGTCCTGAGGGAGCTGATGGGGCTCTATATACAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCCTTCAAAATAAACCACAGCTCT------------CATGAC------ATTGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCACAGGCGCCC---GGC---TAC------------GCAGCGGCTGCCCTGGGA------------CATCATCACCACCCGACC------CACGTTAGCTCC---TATTCCACGGCAGCT---------TTCAATTCCACCCGGGACTTTCTCTTCAGAAATCGAGGCTTCGGAGACGCCACC---AGCGC G---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCG---GGCCACCTGCTCTTCCCTGGGCTTCACGAGCAAGCCGCGAGCCAT------GCC TCGTCTAACGTTGTGAAC---AGCCAGATGCGACTG---GGCTTT---TCCGGGGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACAAGCCCGAGG------TCCGAC---CACTATGCTTCGA CCCAATTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCT------CACCAC---GGA---GCAGGGGCCTTCTTTCGCTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAACCGGAGCAACTGACGAATCCGAAAAAGGCGTGCAACAAAACTTTTAGCACGATGCACGAGCTCGTGACCCACCTGACGGTGGAGCATGTGGGTGGACCGGAGCAGTCGAACCACATTTGCTTCTGGGAAGATTGTGCCCGAGAGGGGAAACCGTTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTTCACACCGGAGAAATAGTCGGCACAGCTCTAAGCCTCCTTATCCGGGCAGAGCTTAGTCAGCCTGGAGCCCTATTAGGAGACGACCAAATCTACAACGTTATCGTTACCGCCCATGCTTTCGTGATAATCTTTTTTATAGTAATGCCGGTTATGATCGGCGGGTTCGGAAACTGACTTATCCCCCTAATGATCGGGGCCCCTGACATAGCCTTCCCCCGAATAAATAATATAAGCTTCTGACTCCTCCCTCCTTCCTTCCTCCTCCTCCTGGCCTCCTCTGCAGTAGAAGCGGGTGCCGGCACAGGATGAACAGTATATCCACCTCTCGCTAGTAACCTTGCACATGCCGGAGCCTCCGTTGACTTAACTATTTTTTCACTCCACCTGGCAGGAATCTCCTCTATCTTAGGTGCTATTAATTTCATTACAACTATTATTAACATAAAACCCCCTGCCATTACCCAGTATCAAACCCCCCTATTTGTATGAGCTGTTCTGATTACTGCCGTACTTCTCCTACTATCCCTACCTGTCTTAGCGGCCGGCATTACAATGTTACTGACAGACCGAAATTTAAATACAACCTTCTTCGACCCTGCAGGAGGAGGTGACCCAATCCTCTACCAACATCTATTCTGATTCTTTGGTCACCCAGAAGTTTATATTCTCATCCTTCCCGGCTTTGGGATAATCTCCCACATTGTTGCCTATTATTCAGGGAAAAAAGAACCCTTCGGCTACATGGGCATGGTATGAGCCATGATAGCAATCGGCCTTCTCGGGTTTATTGTCTGAGCCCACCATATGTTTACAGTCGGGATAGACGTAGACACACGTGCCTAC
142
Alepisaurus ferox ACCAAAAGAGTCATCCAATATTTTGCCAGCATTGCAGCAGTT---------GGTGGTGCRAAGAAGGA CACAAGCAAGGGAACCCTGGAGGATCAAATCATTCAGGCAAACCCCGCACTGGAGGCTTTCGGTAATGCCAAAACATTGAGGAACGATAATTCYTCCCGTTTTGGAAAATTCATCAGAATCCACTTTGGAAACAGTGGTAAGCTGTCTTCTGCGGACATTGAGACCTACCTGCTGGAGAAGTCACGGGTCACCTTTCAGCTTAAGGCAGAGAGGAACTACCACATATTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGCTGGACATGCTGTTGATCACCAACAACCCTTATGATTACTGCTACATCTCCCAAGGAGAAGTAACTGTAGCGTCCATCAATGATTCAGAAGAGCTGATGGCCACTGACAGTGCCTTCGATGTGCTTGGYTTCACGCAAGAGGAGAAGCTGGGAGTCTACAAGTTGATAGGGGCCATTATGCACTATGGCAACATGAGGTTCAAGCAGAAGCAGCGTGAGGAACAGGCAGAGCCTGATGGTACAGAGGCTGCTGATAAGTCCGCTTATCTAATGGGGCTGAATTCAGCAGACCTAATCAAGGGGCTCTGCCATCCCAGAGTCAAGGTAGGGAATGAGTACGTCACCAAAGGCCAGGGTGTAGATCAAGTCTACTACAAGGCTGTGCGTTTCTCTTTCACCGTCATGTCTGTCTCTGTCCAGGCCGACGGAGAGGAAGAGGCG------------------GTTGTTGTCTTCAGGGAGCCAAAACCC AACTCTGAACTGTCCTGTAAGCCCATGTGTCTGATGTTTGTGGATGAGTCTGACCATGAGACACTCACTGCTGTCCTTGGGCCTTTGGTAGCAGAGAGGAATGCAATGAAGCAAAGCCAACTCATCCTCTCAATGGGAGACCTCCCCCGATCCTTCCGCTTCCACTTCAGAGGCACGGGCTACGATGAGAAGATGGTGCGAGAGATGGAAGGCCTGGAGGCCTCAGGCTCCACCTATATCTGCACTCTTTGTGACTCCACTCGGGCAGAGGCCTCTCACAACATGGTGCTCCACTCTATCACGCGCAACCACGACGAGAACCTGGAGCGCTACGAGATATGGAGGACCAACCCCTTCTCGGAGTCTGCCATGGAGCTGCGAGATCGGGTCAAAGGCGTCTCCGCCAAACCCTTTATCGAGACTCATCCGACTATGGATGCATTACACTGTGACATAGGTAACGCCACTGAATTCTACAAAATCTTCCAGGATGAGATCGGGGAGGTGTTC---------------CAGAAGGCCAACCCCAGCA GGGAGGAGCGGCGCAGCTGGAGGGCAGCCCTCGATAAACAGCTGAGGAAGAAGTTGAAGCTGAAACCGGTGATGCGGATGAATGGGAACTTTGCCCGAAGGCTGATGACTGAGGAGGCTGTAGAGGTGGTGTGTGAATTGGTGCCCTCGGACGAGAGACGGCAGGCCCTCAGGGAGCTGATGGGGCTCTATATCCAGATGAAGGGCGAAGTCACAGAAAGAGAAGTGGCTTTGGGGATAAACCCGTTCGCGGACGGCATGGGCGCCTTCAAAATWAACCACAGCTCC------------CACGAC------ATCGGC---TCC------GGG---CAAAC GGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCGGCGGCCGCCCTGGGA------------CACCACCACCATCCGACC------CACGTCAGCTCC---TATTCCACGGCAGCC---------TTCAATTCCACGCGGGACTTTCTCTTCAGAAACCGGGGCTTCGGAGACGCCACC---AGCGC G---CAGCACAGTCTGTTCGCCTCCGCCGCC------GGAAGTTTCGCA---GGGCCACACGGACACT CAGATGCCGCG---GGCCACCTGCTCTTCCCCGGACTCCACGAGCAAGCTGCGAGCCAC------GCG TCGTCTAATGTCGTGAAC---AGCCAGATGAGACTG---GGCTTT---TCCGGAGACATGTACGGGCG GGCCGAC------CAGTATGGCCACGTTACGAGCCCGAGA------TCCGAC---CACTACGCTTCGA CCCAACTGCACGGCTATGGCCCC---ATGAACATGAATATGGCCGCT------CACCAC---GGC---GCGGGGGCCTTCTTTCGGTACATGCGGCAGCCGATCAAACAAGAGCTGATCTGCAAGTGGATCGAACCGGAGCAACTGTCGAACCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTGACCCACCTGACGGTGGAGCATGTGGGAGGACCCGAGCAGTCGAACCACATTTGCTTCTGGGAAGATTGCGCCAGGGAAGGGAAACCGTTCAAAGCCAAATACAAACTCGTAAATCATATCAGAGTTCACACCGGAGAAATAGTAGGCACAGCCTTAAGTCTCCTTATCCGAGCCGAGCTAAGCCAACCCGGAGCCCTCCTGGGAGATGACCAAATCTATAACGTAATCGTAACCGCCCACGCCTTCGTAATAATCTTCTTCATAGTAATGCCCGTTATAATCGGCGGGTTCGGAAACTGACTTATCCCCTTGATAATCGGGGCCCCTGACATAGCCTTTCCGCGAATGAACAACATGAGCTTCTGGCTACTTCCTCCATCCTTCCTCCTCCTCCTCTCCTCTTCAGCTGTTGAAGCTGGGGCCGGAACAGGGTGAACAGTCTACCCTCCTCTAGCTAGCAACTTAGCCCACGCCGGAGCCTCGGTCGACCTGACCATCTTCTCTCTCCATCTGGCGGGTATTTCTTCTATCCTGGGGGCTATTAATTTCATCACAACAATTATTAACATGAAACCCCCGGCCATCACCCAATACCAAACTCCCCTATTTGTTTGAGCCGTTCTAATTACCGCAGTCCTTCTCCTACTCTCCCTCCCCGTCCTAGCGGCAGGCATCACTATGCTCCTTACAGATCGAAACCTAAACACAACCTTCTTTGACCCAGCCGGCGGGGGGGATCCAATTCTTTACCAACACCTCTTCTGATTCTTTGGCCACCCAGAAGTCTACATCTTAATTCTTCCCGGCTTCGGAATGATCTCCCACATTGTTGCCTACTATTCAGGTAAAAAAGAACCCTTTGGCTACATGGGCATGGTCTGAGCAATGATAGCAATCGGACTTCTAGGTTTCATTGTCTGAGCACATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
143
Neoscopelus macrolepidotus ACCAAGAGAGTGATCCAGTACTTTGCCTCCATTGCTGCTGTC------GGTGGCAGTGGCAAGAAGGA TACCAGTAAGGGAACCTTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTGGAGGCCTTTGGGAACGCCAAAACAGCCAGGAATGACAACTCATCCCGTTTTGGAAAATTCATCCGGATCCACTTCGGCACAAGCGGTAAGCTATCATCTGCTGACATCGAGACCTACCTGCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCCGAGAGGAACTATCACATCTTCTTCCAGATTTTGTCCAATCAGAAGCCGGAACTGTTGGACATGCTGCTCATCACTAACAACCCATACGACTACTCCTACATCTCCCAAGGAGAGGTGACAGTAGCCTCCATCAACGACTCAGAGGAGCTGATGGCCACGGACAGCGCCTTCGATGTGCTCGGCTTCACTCAGGAGGAGAAGATGGGAGTCTATAAGCTGACTGGTGCCATTATGCACTATGGCAACATGAAGTTTAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCTGCTGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCTGACCTCATCAAAGGACTTTGCCATCCCAGAGTCAAGGTAGGAAATGAGTATGTCACCAAAGGCCAGGGTGTAGATCAAGTCTACTACAAGGCGGTGCGTTTCTCTTTCACCATCATGTCCGTCTCCGTGCGGCCGGACGGGCGAGCGGAGCCG------------------GTCACTATCTTCACGGAACCGAAGCCC AACTCGGAGCTGTCCTGTAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCGGACCACGAGATGCTCACCGCCGTCCTGGGGCCCGTGGTCGCCGAGCGGAAGGCGATGACGGAGAGCCGGCTCATCCTGTCTATGGGCGGCCTCCCCCGCTCCTTCCGCTTCCACTTCCGAGGCACCGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCGTCNGGCTCCACCTACGTCTGCACCCTGTGYGACTCCACCCGGGCGGAGGCCTCTCACAACATGGTGCTCCACTCCGTCACCCGCAGCCACAGCGAGAACCTGGAGCGCTACGAGATCTGGCGGAGCAACCCCTTCTCCGAGTCCGTCGAGGAGCTGCGAGATCGGGTGAAGGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACTCTGGACGCGCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAAATTTTCCAGGACGAGATCGGGGAGGTGTTC---------------CAGAGGGCCAACCCCACCC GCGAGGAGAGGCGGAGCTGGAGGGCCGCCCTCGACAAGCAGCTGAGGAAGAAATTGAAGCTCAAGCCTGTGATGCGGATGAACGGGAACTATGCCCGGAGGCTGATGTCCGAGGAGACCGTGGACGTGGTGTGCGAACTGGTGCCCTCRGAGGAAAGGCGGGAGGCCCTGAGGGAGCTAATGGGGCTTTACCTCCAGATGAAANNNNNNGTCACAGAAAGAGAAGTGGCGTTGGGGATAAACCCGTTCGCGGACGGGATGGGCGCCTTCAAAATAAACCACAGCTCT------------CACGAC------ATTGGC---TCC------GGA---CAGAC GGCGTTCTCC---TCCCAGGCGCCC---GGC---TAC------------GCGGCGGCTGCTCTGGGA------------CACCACCACCACCCGACC------CACGTCAGCTCC---TATTCCACCGCAGCT---------TTCAACTCCACCAGGGACTTTCTCTTCAGAAATCGGGGCTTCGGAGACGCTACC---AGCGC C---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTTGCA---GGGCCCCACGGACACT CAGACGCCGCT---GGACACCTGCTCTTCCCCGGGCTTCACGAACAAGCCGCCAGCCAC------GCG TCCTCTAATGTTGTCAAC---AGCCAGATGCGACTG---GGCTTT---TCGGGGGACATGTACGGACG GGCCGAC------CAGTATGGCCACGTTACAAGCCCGAGG------TCCGAC---CACTATGCATCGA CCCAGTTGCATGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAACCGGAGCAACTAACGAATCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCATGAGCTCGTCACCCATCTGACGGTGGAACATGTGGGGGGCCCAGAACAGTCGAACCACATTTGCTTCTGGGAGGACTGCTCTCGAGAAGGGAAACCATTCAAAGCCAAATACAAACTAGTGAATCATATCAGAGTTCACACCGGAGANATAGTCGGNACTGCTCTTAGCCTCCTTATTCGGGCCGAGCTCAGTCAACCGGGAGCCCTCCTGGGGGACGACCAGATCTATAATGTAATTGTAACAGCCCATGCCTTTGTAATAATTTTCTTTATGGTAATGCCTATTATGATTGGAGGGTTTGGAAACTGACTAATCCCCCTTATAATTGGAGCCCCCGACATAGCATTCCCCCGTATAAATAATATAAGCTTCTGACTTCTCCCCCCCTCTTTTCTCCTCCTTTTAGCATCATCTGGTGTAGAAGCCGGAGCCGGGACCGGTTGAACAGTATACCCCCCCCTTGCAGGTAACCTCGCCCATGCGGGAGCCTCTGTTGACCTAACAATTTTTTCACTGCATCTAGCAGGTATCTCTTCAATTTTGGGGGCAATCAACTTCATTACAACCATTATTAATATAAAACCCCCTGCCATCTCCCAATACCAGACCCCCTTATTTGTATGGGCAGTCCTTATTACGGCCGTTCTTCTCCTCCTCTCCCTACCCGTCCTAGCCGCTGGTATTACTATACTTCTAACAGACCGAAACCTAAACACCACCTTTTTCGACCCAGCAGGCGGGGGAGACCCCATCCTGTATCAACATCTCTTCTGATTTTTCGGGCACCCTGAAGTATATATTCTTATTCTTCCGGGCTTTGGCATAATCTCTCATATTGTTGCGTACTATTCAGGTAAAAAAGAACCCTTTGGATATATGGGTATAGTTTGAGCCATGATGGCAATTGGACTTCTCGGATTCATCGTGTGGGCCCACCATATGTTTACAGTAGGAATGGATGTAGATACACGAGCATAC
144
Diaphus dumerilii ACCAAGCGAGTCATCCAGTACTTTGCCTCCATYGCTGCCGTT---------GGGGGGACCAAGAGGGA CGCGAGCAAGGGAACCCTGGAGGATCAAATCATCCAGGCCAACCCCGCTCTGGAGGCCTTTGGGAACGCCAAAACCATCCGCAACGACAACTCGTCCCGCTTCGGGAAGTTCATCCGCATCCACTTCGGGACCAGCGGCAAGCTGGCCTCCGCCGACGTCGAGACCTACCTGCTGGAGAAGTCGCGCRTCACCTTCCAGCTCAAGGCTGAACGGAACTACCACATCTTCTTCCAGATCTTGTCCAACSAGAAGCCTGAGCTGATGGAAATGCTGCTGATCACCAACAACCCGTAYGACTACTCCTACATCTCCCAGGGGGAGGTGGCGGTGGCGTCCATCAACGACNNCGAGGAGCTGATCGCCACCGACAGCGCCTTCGACGTGCTCGAATTCACCCAGGAGGAGAARATGTCCATTTACAAGCTGACCGGTGCCATCATGCAYTACGGCAACATGAGGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCCGAGCCYGATGGCACTGAGGCGGCCGAYAAGTCGGCATACCTGATGGGGCTGAACTCGGCCGAYCTAATCAAAGGACTSTGCCATCCCMGAGTCAAGGTGGGAAACGAGTATGTCACGAAAGGCCAGGGYGTAGAYCAAGTCTACTACAAAGCAGTCCGTTTCTCTTTCACCATTATGTCCATCTCTGTGATGCTGGATGGGAAAGCAGAGGCG------------------GTTACCATCTTCACAGAGCCGAAGCCC AACTCCGAGCTGTCCTGTAGGCCCCTGTGCCTGATGTTTGTGGATGAGTCGGACCACGAGATGCTCACTGCCGTCTTGGGGCCCGTCGTCGCAGAGCGGACGGCAATGACAGAAAGTCGACTTATCCTGTCCATGGGTGGCCTYCCCCGCTCATTCCGCTTCTATTTCAGAGGCACAGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCATCAGGCTCTACCTATGTCTGCACTCTGTGCGACTCCACCCGGGCAGAGGCATCTCACAACATGGTGCTCCATTCCATCACCCGCAGCCACAGCGAGAACCTGGAGCGCTACGAGATATGGCGGAGCAACCCCTTTTCGGAGTCTGTTGAGGAGCTGCGAGATCGCGTGAAGGGGGTCTCCGCCAAGCCCTTCATGGAAACTCAGCCCACCCTGGATGCATTGCACTGYGACATTGGTAATGCCACTGAGTTCTACAAAATCTTCCAGGATGAGATYGGAGAAGTATTC---------------CGGAAGGCCAACCCCAGCC GGGAGGAAAGGCGACGCTGGAGGGCTGCTCTCGACAAGCAGTTGAGGAAAAAACTCAAGCTCAAGCCGGTGATGCGGATGAATGGGAACTATGCTCGGAGGCTGATGTCCGAGGAGACCGTGGACGTGGTGTGTGAACTGGTGCCCTCAGAGGAAAGGCGGGAGGCTTTGAGGGAGCTAATGGGGCTTTACCTCCAGATGAAAGGCGAAGTCACAGAGCGAGAGGTGGCGCTGGGGATAAACCCGTTCGCGGACGGGATGGGCGCCTTCAAAATCAACCACGGCTCC------------CACGAC------ATCGGC---TCC------GGG---CAGAC GGCGTTCTCC---TCCCAGGCGCCC---GGC---TAC------------GCGGCGGCCGCTCTGGGA------------CACCACCACCACCCGACC------CACGTCAGCTCG---TACTCTACGGCGGCG---------TTCAACTCCACAAGGGACTTTCTGTTCAGAAATCGGGGCTTCGGAGACGCCACC---AGCGC C---CAGCACAGTTTGTTTGCCTCCGCCGCG------GGAAGTTTCGCA---GGGCCACATGGACACT CGGATGCCGCA---GGGCACCTGCTCTTCCCCGGCCTGCATGAACAAGCCGCGAGCCAC------GCG TCCTCTAACGTTGTCAAC---AGCCAGATGCGCCTG---GGCTTT---TCGGGGGACATGTACGGACG GGCCGAC------CAGTATGGCCACGTTACGAGCCCGCGG------TCCGAC---CACTATGCATCGA CCCAGTTGCACGGCTATGGTCCC---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCCGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAACTATCAAATCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGGGGGCCGGAACAGTCCAACCATATTTGCTTCTGGGAAGAATGTGCTCGAGAAGGGAAACCGTTCAAAGCCAAATACAAACTTGTGAATCATATCAGAGTACACACGGGAGAAATAGTAGGAACTGCTCTTAGCCTCCTAATCCGGGCTGAACTAAGTCAACCTGGCGCCCTCCTCGGGGACGATCAGATTTACAACGTAATCGTAACCGCTCATGCTTTCGTAATAATCTTCTTCATGGTTATACCCATTATGATTGGAGGATTCGGAAACTGACTAATCCCCCTAATGATCGGAGCCCCTGACATGGCATTCCCTCGGATAAACAACATGAGCTTCTGACTACTTCCTCCCTCCTTCCTTCTTCTCCTGGCCTCTTCTGGCGTAGAAGCCGGAGCTGGTACCGGCTGAACAGTTTACCCACCCCTTGCAGGCAACCTTGCCCACGCTGGAGCCTCAGTCGACCTAACAATTTTCTCCCTTCACCTAGCAGGTGTTTCCTCAATTCTAGGGGCTATCAACTTCATCACAACTATCATTAACATAAAACCCCCTGCAATTACCCAATACCAAACTCCTCTATTCGTTTGAGCAGTCCTAATCACGGCCGTACTTCTTCTCCTCTCCCTCCCAGTACTAGCCGCCGGCATCACAATGCTCTTAACTGACCGAAATCTAAACACCACCTTCTTCGACCCCGCAGGAGGGGGAGACCCAATTCTTTACCAACACCTATTCTGATTCTTCGGTCACCCCGAAGTCTATATTCTTATCCTCCCCGGCTTTGGAATGATCTCCCACATCGTAGCATACTATTCAGGTAAGAAAGAACCTTTTGGCTACATGGGCATGGTTTGAGCAATGATGGCCATCGGCTTCCTTGGCTTCATCGTCTGAGCTCACCACATGTTTACTGTTGGGATGGACGTAGACACACGAGCCTAT
145
Hygophum hygomii ACCAAGCGAGTCATCCAGTACTTTGCCTCCATCGCTGCCGTT---------GGGGGGACCAAGAGGGA CGCGAGCAAGGGAACCCTGGAGGATCAAATCATCCAGGCCAACCCCGCTCTGGAGGCCTTTGGGAACGCCAAAACCATCCGCAACGACAACTCGTCCCGCTTCGGGAAGTTCATCCGCATCCACTTCGGGACAAGCGGCAAGCTGGCGTCCGCCGACGTCGAGACCTACCTGCTGGAGAAGTCGCGCATCACCTTCCAGCTCAAGGCTGAACGGAACTACCACATCTTCTTCCAGATCTTGTCCAACGAGAAGCCTGAGCTGCTGGAAATGCTGCTGATCACCAACAACCCGTACGACTACAGCTACATCTCCCAGGGGGAGGTGGCGGTGGCGTCCATCAACGACAACGAGGAGCTGATCGCCACCGACAGCGCCTTCGACGTGCTCGAATTCACCCAGGAGGAGAAGATGTCCATTTACAAGCTGACCGGTGCCATCATGCACTACGGCAACATGAGGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCCGAGCCCGATGGCACTGAGGCGGCCGATAAGTCGGCATACCTGATGGGGCTGAACTCGGCCGACCTAATCAAAGGACTCTGCCATCCCCGAGTCAAGGTGGGAAACGAGTATGTCACGAAAGGCCAGGGCGTAGATCAAGTCTACTACAAAGCGGTCCGTTTCTCGTTCACCGTCATGTCCATCTCTGTGATGCCGGATGGGAAAACGGAGGCG------------------GTGACCATCTTCACGGAGCCGAAGCCC AACTCTGAGCTGTCCTGTAAGCCCATGTGCCTGATGTTTGTGGATGAGTCGGACCACGAGATGCTCACTGCCGTCTTGGGGCCTGTGGTCGCAGAGCGCGCGGCAATGACCGAAAGCCGACTCATCCTGTCCATGGGTGGCCTCCCCCGCTCCTTCCGCTTCTACTTCAGAGGCACAGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCATCAGGCTCTACCTATGTCTGCACTCTGTGCGACTCCACCCGGGCGGAGGCCTCTCGCAACAAGGTGCTCCATTCCATCACCCGCAGCCACGGCGAGAACCTGGAGCGCTACGAGATATGGCGGAGCAACCCCTTCTCCGAGTCTGTCGAGGAGCTGCGAGATCGGGTGAAGGGGGTCTCCGCCAAGCCCTTCATGGAAACCCAGCCCACTCTGGATGCATTGCACTGTGACATTGGTAACGCCACTGAGTTCTACAAAATCTTCCAAGACGAGATCGGGGAGGTGTTC---------------CAGAAAGCCAACCCCAGCC GCGAGGAAAGGCGACGATGGAGGGCTGCTCTTGACAAGCAGCTGAGGAGAAAACTCAAGCTCAAGCCGGTAATGCGGATGAACGGGAATTACGCCCGGAGACTGATGTCCGAGGAGACTGTGGACGTGGTGTGCGAACTGGTGCCCTCAGAGGAAAGGCGGGAGGCACTGAGGGAGCTAATGGGGCTTTACCTCCAGATGAANGGCGAAGTCACGGAAAGAGAGGTGGCGTTGGGGATCAATCCGTTCGCAGACGGGATGGGCGCCTTCAAAATAAACCACGGCTCT------------CACGAC------ATCGGC---TCC------GGA---CAGAC GGCGTTTTCC---TCGCAGGCGCCC---GGC---TAC------------GCAGCGGCCGCCCTGGGA------------CACCACCACCACCCAACC------CACGTCAGCTCG---TATTCCACGGCAGCC---------TTCAACTCCACCAGGGACTTTCTGTTCAGAAATCGGGGCTTCGGAGACGCCACT---AGCGC C---CAGCACAGYTTGTTCGCCTCCGCCGCG------GGAAGTTTCGCA---GGGCCACATGGACACT CGGATGCCGCG---GGGCACCTGCTCTTCCCCGGGCTGCACGAACAAGCCGCGAGCCAC------GCG TCCTCTAATGTTGTCAAC---AGTCAGATGCGACTG---GGCTTT---TCGGGGGACATGTACGGACG GGCCGAC------CAGTATGGCCACGTTACGAGCCCGAGG------TCCGAC---CACTACGCATCGA CCCAGTTGCACGGCTATGGCCCT---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCCGGGGCCTTCTTTCGATACATGCGGCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAACTATCAAATCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTCGTCACCCATCTGACGGTGGAGCATGTGGGGGGGCCGGAACAGTCGAACCACATTTGCTTCTGGGAAGAATGTGCTAGAGAAGGGAAACCGTTCAAAGCCAAATACAAACTCGTGAATCATATCAGAGTACACACTGGAGAAATAGTGGGCACTGCCCTTAGCCTCCTTATTCGAGCTGAACTTAGCCAACCCGGGGCCCTCCTCGGAGACGATCAAATCTACAATGTGATCGTTACAGCTCACGCCTTCGTAATAATCTTCTTTATAGTTATACCAATCTTAATTGGAGGTTTTGGAAACTGATTAATTCCTCTAATAATCGGGGCCCCCGACATAGCATTCCCACGAATGAATAACATAAGCTTCTGACTGCTCCCGCCCTCCTTCCTACTCCTCCTGGCCTCTTCTGGTGTAGAAGCCGGAGCTGGCACCGGCTGAACAGTTTACCCCCCACTCGCCGGCAACCTCGCGCACGCCGGCGCATCCGTTGACTTGACGATCTTCTCCCTGCACCTGGCGGGCGTGTCCTCAATTCTAGGCGCTATTAACTTTATTACAACGATTATTAATATGAAATCCCCAGCAATCTCCCAATACCAGACCCCTCTATTTGTCTGATCTGTCTTAATTACAGCCGTACTCCTCCTCCTCTCCCTCCCTGTCCTGGCCGCTGGTATTACAATGCTATTGACGGACCGAAATCTAAACACAACCTTCTTTGACCCAGCAGGCGGGGGAGACCCTATCCTCTACCAACACCTATTCTGATTCTTCGGACACCCTGAAGTCTACATTCTTATTCTCCCAGGCTTTGGCATAATCTCCCACATCGTTGCCTACTACTCAGGCAAAAAAGAACCCTTCGGCTATATAGGAATAGTCTGAGCAATAATGGCCATCGGTTTTCTCGGCTTTATCGTATGGGCCCACCACATATTTACTGTCGGTATAGACGTCGACACACGCGCTTAT
146
Lampris guttatus ACTAAGAGAGTCATCCAGTACTTTGCCAGCATTGCTGCTGTC------GGAGGTGGAGGCAAAAAAGA CACCAGCGAGGGGACGCTTGAGGATCAAATCATCCAGGCGAACCCTGCGCTGGAGGCATTCGGCAACGCCAAAACATTAAGAAACGACAACTCGTCTCGTTTTGGAAAATTCATTCGAATTCACTTCGGTACGAGTGGCAAACTGTCCTCTGCCGACATTGAGACGTACCTGCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCTGAGAGGAACTACCACATCTTCTACCAGATCCTGTCCAATCAGAAGCCAGAGCTTCTGGACATGCTGCTGATCACCAACAACCCGTACGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTCGCCTCCATCAACGACTCGGAGGAGCTGATGGCCACCGACAGCGCCTTTGATGTGCTCGGTTTCACTCCAGAGGAGAAGATGGGCGTCTATAAACTGACTGGTGCCATCATGCACTACGGCAACATGAAGTTCAAACAGAAGCAGCGGGAGGAGCAGGCTGAACCTGATGGGACGGAGGCTGCTGATAAATCAGCTTACCTAATGGGGCTGAACTCTGCAGACCTCATCAAAGGCCTGTGCCATCCCAGAGTCAAGGTAGGAAATGAATATGTTACCAAAGGCCAAAGTGTGGACCAAGTCTACTACAAAGCTGTGCGCTTTTCTTTCACCATTATGTCCATCTCTATATTGGCTGATGGAGAGCAGGAAGAG------------------GTAACTATCTTCAGGGAGCCAAAGCCA AATTCTGAACTGTCCTGTAAACCTCTTTGCCTGATGTTTGTAGACGAGTCTGACCACGAAACCCTCACGGCTGTCCTAGGGCCTGTGATTGCGGAACGAAACGCCATGAAGCAGAGCCAACTCATCCTATCTATGGGCGGGCTACCTCATTCTTTCCGCTTCCACTTTAGAGGCACAGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTCGAGGCCTCAGGTTCCACTTATATCTGCACCCTGTGCGATTCCACTAGGGCGGAGGCCTCTCACAACATGGTACTCCATTCTATCACACGCAGCCACAGTGAGAACCTGGAGCGCTATGAGATATGGAGGACAAATCCCTTCTCTGAGTCTGCTGAGGAGCTGCGAGACCGGGTCAAAGGAGTCTCTGCCAAGCCCTTTATGGAAACCCAGCCTACTCTAGATGCATTACACTGTGACATCAGCAATGCCACAGAGTTCTACAAAATCTTCCAGGATGAGATTGGAGAAGTGTTC---------------CAAAGGCCCAACCCTACCC GGGAGGAAAGGCGAGGATGGAGGGCAGCCTTGGATAAGCAGCTTAGGAGGAAGATGAAGCTTAAGCCTGTGATGAGGATGAATGGAAACTATGCCAGAAGGCTGATGACCAAGGAGGCTGTGGACGTGGTATGTGATTTAGTGCCCACAGAGGAGAGGAGGGAGGCCCTGAGGGAGCTTATGGAGCTATACCTGCAGATGAAAGGCGAAGTCACGGAGAGAGAAGTGGCGCTGGGGATAAATCCTTTCGCTGACGGGATGGGTGCTTTTAAAATCAGCCCCACCACT------------CACGAT------CTCGCA---TCG------GGT---CAAAC TGCCTTCACG---TCGCAGGCTCCA---GGC---TAC---------------GCCGCACCTCTAGGT------------------CACCATCCCAGC------CATGTGAGTTCG---TACAGCAGCGCAGCG---------TTCAACTCGACCCGGGACTTTCTGTTTCGCTATCGGGGCTTTGGGGAAGCGGCGGCAGCCAG CGCCGGGCACAGCCTGTTCGCTTCGGCGGCGGCTGCGGGCAGTTTTGCG---GGACCCCATGGACATA CTGACGCTGCG---GGGCACCTACTCTTCCCGGGTCTTCACGAGCAGGCGACGACCCACGCTTCTCCC AATGCACATGTAATGAAC---GGCCAAATGCGCTTA---GGCTTT---TCTGGGGACATGTATGGCAG AGCAGAC------CAATACAGCCAGGTCACTAGTCCCAGA------TCGGAC---CACTACGCCTCGA CCCAGCTACACAGCTATGGCCCC---ATGAACATGAACATGGCGGCC------CACCAT---GGG---GCCGGGGCCTTCTTTCGTTATATGAGGCAGCCCATTAAACAAGAACTCATATGTAAATGGGTAGAGCCCGAACAGTTGACGAATCCTAAAAAATCCTGCAACAAAACTTTTAGCACGATGCACGAACTGGTTACTCATGTAACAGTGGAACACGTTGGGGGACCAGAACAGTCGAACCATATCTGTTTCTGGGAAGACTGTTCAAGAGAGGGAAAGCCTTTCAAAGCCAAATATAAACTTGTAAATCACATCAGAGTCCACNNNNNNNNNATGGTCGGAACTGCCCTCAGCCTTCTAATCCGAGCTGAGCTCAGCCAACCAGGAGCCCTCCTGGGAGACGACCAAATCTATAACGTAATCGTCACCGCCCATGCCTTCGTAATAATTTTCTTTATAGTCATGCCCATCATAATTGGAGGCTTTGGGAACTGGCTAATTCCCTTAATAATCGGCGCCCCTGACATGGCCTTTCCCCGAATGAACAATATAAGCTTCTGGCTTCTTCCCCCCTCCTTCTTACTCCTTCTAGCCTCCTCCGGAGTAGAGGCCGGGGTAGGAACAGGCTGAACCGTATACCCACCCCTAGCAGGAAACCTAGCTCACGCAGGAGCCTCAGTTGACCTAGCCATTTTCTCCCTTCACCTAGCAGGGGTCTCCTCTATTTTAGGGGCAATCAACTTTATTACCACAATTATCAACATGAAGCCTCCGGCCATCTCTCAGTACCAAACCCCCCTCTTCGTATGGGCCACCCTGATTACGGCTGTACTCCTTCTCCTCTCCCTCCCCGTTTTAGCTGCCGGAATTACAATGCTCCTAACAGATCGAAACCTGAATACTACTTTCTTTGACCCTTCCGGGGGAGGAGACCCCATTCTATATCAGCATCTATTCTGATTCTTCGGGCACCCTGAGGTCTATATTCTCATCCTACCTGGCTTTGGAATAATCTCCCATATCGTGGCCTACTACTCAGGTAAGAAAGAGCCCTTCGGCTACATAGGAATAGTTTGAGCTATAATGGCCATTGGCCTTCTAGGGTTTATTGTCTGAGCCCACCACATGTTTACGGTGGGGATGGACGTAGACACACGAGCCTAC
147
Lophotus lacepede ACCAAGAGGGTCATCCAGTACTTTGCCAGCATCGCTGCAGTG------GGTGGTGGGGGCAAGAAGGA CACCAGCAAGGGGACCCTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTGGAGGCCTTCGGGAACGCCAAGACATTGAGGAACGACAACTCCTCCCGGTTTGGGAAATTCATCCGGATACACTTTGGAACAAGTGGAAAACTGTCCTCGGCTGACATCGAGACGTACCTGCTGGAGAAGTCTCGCGTCACCTTCCAGCTCAAGTCTGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGCTGGACATGCTGCTGGTCACCAACAACCCTTACGACTACTCCTTCATCTCCCAGGGGGAGGTGACCGTAGCCTCCATCAACGACTCAGAGGAGCTGATGGCCACTGACAGTGCCTTTGATGTGCTTGGCTTCACTCAGGAGGAGAAGATGGGAGTGTACAAACTTACCGGGGCCATCATGCACTATGGCAACATGAAGTTCAAGCAGAAACAGCGTGAGGAGCAGGCAGAGTCTGACGGGACTGAGGCGGCCGACAAGTCGGCCTACCTGATGGGCCTGAACTCGGCCGACCTCATCAAAGGGCTCTGCCACCCCAGGGTCAAGGTGGGTAATGAGTTTGTCACCAAGGGCCAGGGAGTGGACCAAGTCTACTACNNNGCTGTTCGTTTCTCTTTCACTATTATGTCTGTCTCCGTCCTGCCGGACGACGGGGGGGAGGAG------------------GTTACCATTTTCCGGGACCCAAAGCCA ATTTCAGAACTGTCCTGTAACCCCCTTTGCCTGATGTTTGTGGACGAGTCAGACCATGAGACCCTCACTGCTGTCCTGGGGCCTGTGGTCGCAGAGCGAAATGCCATGAAAGAGAGCCGGCTCATCCTCTCCATGGGTGGCTTGCTGCGCTCCTTTCGCTTCCACTTCAGGGGCACGGGATACGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGGTCCACATATGTCTGCACTCTGTGTGACTCCAGTCGTGCGGAGGCTTCTCAGAACATGGTGCTGCACTCCGTCACCCGCAGTCATGATGAGAACCTGGAACGTTATGAAATATGGAGAACCAACCCCTTTTCTGAGTCTGTGGATGAGCTGCGAGACAGAGTCAAAGGGGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGATGCATTGCACTGTGACATTGGCAATGCCACTGAATTCTACAAAATCTTCCAGGACGAGATTGGGGAAGTTTAT---------------AAAAAGGTCAACCCCAGCC GGGAGGAAAGGCGCAGCTGGAGGGCAGCCCTGGATAAACAGCTGAGGAAGAAGATGAAGCTTAAACCGGTAATGAGGATGAATGGGAACTATGCCCGCAGGTTAATGACCCAGGAGGCTGTGGAGGTGGTGTGTGAACTGGTGCCCTCAGAGGAGAGGAGGGAGGCCCTGAGGGAGCTCATGAGGCTCTACNNNNNNNNNNNNGGCGAAGTCACGGAGAGAGAAGTGGCGTTGGGGATAAATCCATTCGCAGACGGCATGGGTGCGTTCAAAATAAACCACAGCTCA------------CACGAC------ATCGGC---TCT------GGA---CAGAC GGCGTTCTCC---TCCCAGGCGTCC---GGC---TAC---------GCGGCCGCCGCCGCCCTGGGA------------CATCATCATCACCCGACC------CACGTCAGCTCC---TACTCCACTGCGGCT---------TTCAACTCGACGCGGGACTTCCTCTTCAGGAATCGGGGCTTCGGTGACGCCACC---AGCGC G---CAGCACAGCTTGTTCGCCTCCGCTGCC------GGAAGTTTCGCGGCAGGGCCACATGGACACT CGGATGCCGCG---GGACACCTGCTCTTTCCCGGGCTGCATGAACAAGCTGCGAGCCAT------GCG TCCTCCAACGTTGTCAAC---AGCCAGATGCGACTG---GGCTTT---TCGGGAGATATGTACGGCCG GGCCGAC------CAGTACGGCCATGTTACGAGCCCCAGA------TCCGAC---CACTACGCCTCGA CCCAGCTGCACGGCTACGGCCCT---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCAGGGGCCTTTTTTCGATACATGCGGCAGCCCATCAAGCAGGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGACGAACCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCATGAGCTGGTGACCCACCTGACCGTGGAGCATGTGGGGGGACCAGAGCAGTCCAACCACGTCTGCTTCTGGGAAGACTGCTCCCGGGAAGGGAAACCGTTCAAAGCTAAATACAAACTTGTGAACCATATCNNNNNNNNNNNNNNNNNNATAGTNGGGACGGCTTTAAGCCTCCTTATCCGAGCAGAACTAAGCCAACCTGGGGCCCTTCTAGGTGATGACCAAATCTATAATGTAATTGTAACTGCTCATGCCTTCGTCATAATCTTTTTTATAGTAATGCCTATTATAATTGGGGGCTTTGGTAATTGACTCATCCCACTTATAATTGGAGCACCTGACATAGCTTTCCCCCGCATAAACAACATAAGCTTCTGACTTCTTCCACCCTCCTTCCTGCTGCTTCTAGCTTCTTCAGGAGTAGAAGCTGGTGCTGGGACMGGCTGAACWGTCTACCCCCCACTAGCTGGAAACTTGGCTCATGCTGGGGCTTCAGTAGACCTCACCATCTTCTCTCTCCACTTAGCTGGAATCTCATCCATCCTGGGGGCTATTAACTTTATTACTACAATTATCAACATAAAACCACCTGCCATCTCACAGTACCAAACTCCACTCTTTGTATGAGCAGTTCTTATCACAGCTGTRCTACTTCTTCTATCGCTCCCCGTACTAGCTGCTGGCATTACAATGCTTCTCACAGACCGAAATCTTAATACCACCTTCTTTGACCCCTCAGGAGGAGGAGACCCTATTCTCTACCAACACCTCTTCTGATTCTTTGGTCACCCAGAAGTATACATCCTCATTCTGCCAGGTTTTGGTATAATCTCCCATATTGTAGCATACTACTCWGGCAAGAAAGAACCTTTNGGCTATATRGGCATGGTCTGAGCTATGATAGCAATTGGACTCCTAGGGTTTATCGTATGAGCTCATCAYATGTTTACTGTTGGAATAGAYGTAGACACACGAGCATAC
148
Zu cristatus ACCAAGAGAGTCATCCAGTACTTTGCCAGTATTGCCGCAGTT------GGTGGTGGAGGCAAGAAGGA CACCGGGAAGGGAACCCTGGAGGATCAAATCATCCAAGCCAACCCCGCACTGGAGGCCTTCGGTAACGCCAAAACCCTGAGGAATGACAACTCCTCTCGTTTTGGGAAATTCATCCGCATACATTTCGGAACGAGCGGGAAGCTTTCCTCTGCGGACATCGAGACGTATCTGCTGGAAAAGTCTCGTGTCACCTTTCAGCTCAAGTCGGAGAGAAACTACCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCGGAGCTGCTGGACATGCTGCTGATCACAAACAACCCGTACGACTACTCCTTCATCTCCCAGGGGGAGGTGACGGTGGCCTCCATCGAYGACTCGGAGGAGCTGGTGGCCACCGACAGCGCCTTCGATGTGCTCGGCTTCACGCAGGAGGAGAAAATGGGCGTCTACAAGCTGACCGGGGCCATTATGCACTACGGCAATATGAAGTTCAAACAGAAGCAGCGTGAGGAGCAGGCGGAGCCTGACGGGACCGAGGCAGCCGACAAGTCCGCCTACTTGATGGGCCTGAACTCTGCCGACCTCATCAAAGGACTTTGCCATCCCCGGGTCAAGGTAGGAAATGAATACGTCACCAAAGGCCAGGGCGTAGACCAAGTCTACTACNNNGCTGTGCGCTTTTCCTTCACCATCATGTCCATCTCTATACTGGCTGACGCAGAGCGGGAAGAA------------------GTGACCGTCTTCAGGGAGCCAAAGCCG AATTCTGAACTGTCCTGTAAACCTCTGTGCTTGATATTCGTAGACGAGTCCGACCACGAGACCCTCACGGCCATCCTAGGGCCTGTGGTCGCGGAGCGGAACGCCATGAAGCAGAGCCGACTCATCCTGTCCGTGGGTGGGCTGCCTCGTTCCTTCCGCTTCCACTTCAGGAGCACAGGCCTGGATGAGAAGATGGTGCGTGAGATGGAAGGCCTGGAGGCCTCGGGCTCCACCTATATCTGCACCCTGTGTGACTCCACGAGGACGGAGGCCTCTCAGAACATGGTGCTCCATTCCATCACGCGCAGCCACACCGAGAACCTGGAGCGCTATGAGATATGGAGGAGCAATCCCTTCTCCGAGTCCGCCGAGGAGCTGCGAGACCGGGTCAAAGGAGTCTCGGCCAAGGCCTTCATGGAGACCCAGCCGACTCTAGATGCGTTGCACTGTGACATCAGCAACGCCACCGAGTTCTACAAAATCTTCCAGGATGAGATCGGAGAAGTGTTC---------------CAAAGGCCCAACCCTACTC GGGAGGAGAGGCGAGGATGGAGGGCGGTCCTGGATAAGCAGCTCAGGAAGAAGATGAAACTCAAGCCTGTGATGAGGATGAACGGGAACTACGCCAGGAGGCTGATGACCAAGGAGGCTGTGGATGTGGTGTGTGAGCTGGTGCCCACAGAGGAGAGAAAGGAGGCCCTGAGGGAGCTCATGGGGCTCTACCTGCAGATGAAGGGCGAGGTGACGGAGAGAGAGGTGGCGCTGGGGATCAACCCTTTCGCGGACGGCATGGGCGCGTTCAAAATAAACCACAGCTCG------------CACGAC------ATCGGC---TCC------GGG---CAGAC GGCGTTCTCC---TCCCAGGCGTCC---GGC---TAC---------GCGGCCGCCGCCGCCCTGGGA------------CATCACCACCACCCGACC------CACGTCAGCTCC---TACTCCACGGCGGCG---------TTCAACTCCACGCGGGACTTCCTCTTCAGGAACCGGGGCTTCGGCGACGCCGCC---AGCGC G---CAGCACAGCTTGTTCGCGTCCGCCGCC------GGAAGTTTCGCGGCGGGGCCACACGGACACT CGGATGCCGCG---GGACACCTGCTCTTCCCCGGGCTCCATGAGCAAGCGGCCAGCCAC------GCG TCCTCCAACGTGGTCAAC---AGCCAGATGAGACTG---GGCTTT---TCGGGGGATATGTACGGCCG GGCCGAC------CAGTACGGCCACGTGACGAGCCCCAGA------TCCGAC---CACTACGCCTCGA CCCAGCTGCACGGCTACGGCCCG---ATGAACATGAACATGGCCGCG------CACCAC---GGA---GCGGGGGCCTTTTTCCGATACATGAGGCAGCCCATCAAACAGGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGACGAACCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTGGTGACCCACCTGACCGTGGAGCATGTGGGGGGACCCGAACAGTCCAACCACGTTTGCTTCTGGGAGGACTGCGGGCGGGAAGGGAAACCGTTCAAAGCCAAATACAAACTGGTGAACCATATCAGGGTGCACACCGGGGAGATGGTAGGAACAGCACTGAGCCTACTTATTCGTGCTGAACTGAGTCAACCTGGGGCCCTTCTAGGGGACGATCAAATTTATAATGTAATTGTTACGGCTCATGCCTTCGTAATAATTTTCTTCATAGTAATACCAATTATAATTGGTGGCTTTGGTAACTGGCTTATCCCCCTAATGATTGGTGCCCCTGATATAGCTTTCCCTCGAATAAATAATATAAGCTTCTGACTTCTCCCACCCTCATTTCTGCTCCTCCTAGCCTCCTCGGGAGTTGAAGCTGGGGCAGGGACTGGTTGAACAGTGTATCCACCCCTTGCGGGTAATTTAGCCCATGCGGGAGCTTCTGTTGATTTGACTATCTTCTCTCTTCACTTAGCGGGTGTATCCTCTATTCTTGGGGCTATCAACTTCATTACTACGATTATTAATATGAAACCACCAGCGATCTCCCAATACCAAACACCTCTTTTTGTTTGAGCAGTATTAATTACTGCTGTACTTCTTCTTCTATCTCTTCCTGTACTTGCAGCTGGAATCACAATACTTCTTACCGATCGAAATTTAAATACCACTTTCTTTGATCCCTCTGGCGGAGGAGACCCTATTCTCTACCAACACCTCTTCTGATTTTTTGGTCATCCTGAGGTTTATATTCTAATTCTCCCTGGCTTTGGAATAATCTCCCACATCGTGGCTTACTATGCGGGTAAAAAAGAACCTTTCGGCTATATGGGTATAGTTTGAGCCATAATGGCCATCGGCCTTTTAGGTTTCATTGTGTGAGCTCACCATATGTTTACAGTTGGTATAGATGTAGATACCCGAGCCTAC
149
Regalecus glesne ACCAAGAGGGTCATCCAGTACTTTGCCAGCATCGCTGCAGTG------GGCGGTGGAGGCAAGAGGGA CACTAGCAAGGGAACCCTGGAGGATCAGATCATCCAAGCCAACCCTGCACTGGAGGCCTTCGGGAATGCCAAAACCCTGAGGAACGACAACTCCTCTCGCTTCGGGAAATTCATCCGCATACATTTCGGGACGAGTGGGAAGCTTTCCTCTGCGGACATTGAGACCTATCTGCTGGAAAAGTCCAGAGTCACCTTTCAGCTCAAGTCGGAGAGAAACTACCACATCTTCTTCCAGATCTTGTCCAATCACAAGCCAGAGCTGCTGGACATGCTGCTGATCACAAACAACCCGTACGACTACTCCTTCATCTCCCAGGGAGAAGTGACGGTGGCCTCCATCAACGACTCGGAGGAGCTGATGGCCACCGACAGTGCCTTTGACGTGCTCGGCTTCACGCACGAGGAGAAAATGGGCGTCTACAAGCTGACCGGGGCCATTATGCACTACGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCGGAGTCGGACGGGACCGAGGCAGCCGACAAGTCCGCCTACCTGATGGGCTTGAACTCCGCTGACCTCATCAAAGGCCTTTGCCATCCCAGGGTCAAGGTAGGGAATGAATACGTCACCAAAGGCCAGGGCGTAGACCAGGTCTACTACAAGGCTGTGCGCTTTTCCTTCACCGTCATGTCCATCTCTGTATTGGCCGACACAGAGCAGGAAGAA------------------ATGATTATCTTCAGGGAGTCAAAGCCA AATTCTGAACTCTCCTGTAAACCTCTCTGCTTGATATTCATCGACGAGTCTGACCACGAGACCCTCACGGCCATCCTCGGGCCTTTGGTCGCAGAGCGGGACGCCATGAAGCAGAGCCGACTCATCCTGTCCATGGGTGGGCTGCCTCGCGCCTTCCGCTTCCACTTCAGAAGCACGGGGTTGGATGAGAAGATGGTGCGTGAGATGGAAGGCCTGGAGGCCTCGGGCTCCACCTATGTCTGCACCCTGTGCGATTCCACTAGGACGGAGGCCTCTCAAAACATGGTGCTCCACTCCATCACACGCAGCCACAGTGAGAACCTGGAGCGCTATGAGATATGGAGGAGCAACCCCTTCTCCGAGTCTGTGGAGGAGCTGCGAGACCGGGTCAAAGGAGTCTCTGCCAAGGCCTTTATGGAGACCCAGCCCACTCTAGACGCATTGCACTGTGACATCAGCAATGCCACCGAGTTCTACAAAATCTTCCAGGACGAGATTGGAGAAGTGTTC---------------AAAAGGCCCAATCCCCCTC GGGAGGAAAGGAGAGGATGGAGGACAGTCCTGGATAAGCAGCTTAGGAAGAAGATGAAACTCAAGCCTGTGATGAGGATGAACGGAAACTATGCCAGGAGGCTGATGACCAAGGAGGCTGTGGAAGTGGTGTGTGAGCTGGTGCCCACGGAGGAGAGAAAGGAGGCCCTGAGGGAGCTCATGGAGCTCTACTTGCAGATGAAANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCG------------CACGAC------ATCGGC---TCC------GGA---CAGAC GGCGTTCTCC---TCCCAGGCATCC---GGC---TAC---------GCGGCCGCCGCCGCCCTGGGA------------CATCACCACCACCCGACC------CACGTCAGCTCC---TACTCCACGGCGGCT---------TTCAACTCGACGCGGGACTTTCTCTTCAGGAATCGGGGTTTCGGTGACGCCACC---AGCGC T---CAACACAGCTTGTTCGCGTCCGCCGCC------GGAAGTTTCGCGGCAGGGCCACATGGACACT CGGATGCCGCG---GGACACCTGCTCTTCCCCGGGCTACACGACCAAGCGGCCAGCCAT------GCG TCCTCCAACGTCGTCAAC---AGCCAGATGCGACTG---GGCTTT---TCGGGAGATATGTACGGCCG GGCCGAC------CAGTACGGCCACGTGACGAGCCCCAGA------TCCGAC---CACTACGCCTCGA CCCAGCTGCACGGCTACGGCCCT---ATGAACATGAATATGGCCGCG------CATCAC---GGA---GCAGGGGCCTTTTTTCGATACATGAGGCAGCCCATCAAACAGGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGTTGACGAATCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCATGAGCTTGTGACCCATCTGACCGTGGAGCATGTGGGGGGACCCGAACAGTCCAACCACGTTTGCTTCTGGGAAGACTGCTCACGGGAAGGGAAACCGTTCAAAGCCAAATACAAACTTGTAAACCATATCCGGGTACACACCGGAGAGATGGTGGGCACAGCCTTAAGCCTACTCATCCGAGCTGAACTAAGCCAACCTGGCGCCCTTCTTGGAGATGATCAGATCTACAATGTTATTGTTACGGCCCATGCCTTTGTAATAATTTTCTTTATAGTAATACCAATCATAATTGGAGGATTCGGAAACTGACTTATCCCCCTAATGATCGGTGCCCCCGATATAGCATTCCCCCGAATAAAYAACATAAGCTTCTGACTTCTCCCCCCCTCTTTCCTCCTACTCCTAGCCTCTTCCGGGGTAGAAGCCGGAGCTGGGACAGGRTGAACWGTATACCCCCCTCTGGCCGGGAACCTGGCCCACGCCGGAGCATCCGTTGACTTAACCATTTTTTCCCTTCACCTAGCAGGGRTTTCCTCAATTCTAGGGGCAATTAACTTTATTACCACAATCATTAACATAAAACCCCCAGCCATTTCCCAATATCAAACCCCCTTATTTGTGTGATCCGTCCTAATTACAGCTGTCCTTCTTCTCCTGTCTCTGCCAGTTCTCGCTGCYGGAATCACAATACTTCTAACAGATCGAAACCTAAACACAACCTTCTTTGACCCTGCAGGAGGAGGAGACCCAATCCTGTACCAACACCTATTCTGATTCTTTGGTCACCCAGAAGTGTATATTCTTATTCTACCCGGATTTGGAATAATCTCCCACATTGTTGCCTATTATTCAGGCAAAAAAGAACCTTTCGGCTATATAGGAATAGTGTGAGCAATGATAGCCATCGGACTCCTAGGATTTATTGTATGAGCACATCACATATTCACAGTAGGGATAGGAGTAGAGACACGANNNNNN
150
Polymixia lowei ACCAAGAGAGTCATCCAGTACTTTGCCAGTATTGCTGCTGTT------GGCAGTGCAGTTAAGAAGGA TGCCAGCAAAGGAACACTGGAGGATCAAATCATCCAGGCCAACCCTGCACTGGAGGCCTTTGGTAATGCCAAAACAGTTAGGAATGATAACTCCTCCCGTTTTGGAAAATTCATCCGAATTCACTTTGGAAACAGTGGCAAGCTGTCCTCTGCTGACATTGAGACTTACCTGCTGGAGAAGTCACGTGTCACCTTTCAGCTTAAATCTGAGAGGAACTACCACGTCTTCTTCCAGATCTTGTCCAATCAGAAGCCAGAGCTGCTGGACATGTTGCTGATCACCAACAACCCGTACGATTACTCCTTCATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAACGACTCAGAGGAGCTGTTAGCCACTGACAGCGCCTTTGATGTGCTTGGCTTCACTCAGGAGGAGAAGATGGGAGTGTACAAGTTGATTGGTGCCATTATGCACTACGGCAACATGAAGTTCAAACAGAAGCAGCGTGAAGAGCAGGCTGAACCTGATGGAACTGAGGCTGCTGATAAGTCAGCTTACCTGATGGGGCTGAACTCTGCAGACCTTATCAAAGGACTGTGTCATCCCAGAGTCAAAGTAGGAAATGAATATGTCACCAAAGGTCAAGGTGTAGACCAAGTCTACTACAAGGCTGTACGCTTTTCTTTCACCATTATGTCTGTCTCTGTTCTGGGAGATGGAGAGGAAGAGGCG------------------GTTACAATCTTCAGGGAGCCAAAGCCA AACTCCGAACTGTCCTGTAAGCCCCTATGCCTGATGTTTGTGGATGAGTCAGACCACGAGACACTCACTGCTGTCCTGGGGCCGCTGATTGCGGAACGGAGCGCAATGAAGCAGAGCCACCTTCTCCTGTCRATAGGTGGCCTCACGCGCTCCTTCAGCTTCCACTTCAGAGGCACGGGCTATGATGAGAAGATGGTACGTGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACCTACGTCTGCACCCTTTGTGACTCCACTCGAGCACAGGCCTCCGAAAACATGGTGCTCCACTCCATCACCCGCAGTCACGATGACAACCTGGAACGCTATGAAATATGGAGGACCAATCCCTTTTCAGAGTCCATAGAAGAGCTGCGAGACCGGGTGAAAGGGGTCTCAGCCAAGCCCTTYATGGAGACCCAGCCCACTATGGACGCATTGCACTGTGACATAGGTAATGCCACTGAGTTCTACAAAATCTTTCAGGATGAGATTGGGGAGGTATTC---------------CAGAAGGCCAACCCCACTC GGGAGGAGCGTCGGAGCTGGAGGGCCGCCCTCGACAAGCAGCTGAGGAAGAAGATGAAGCTGAAACCGGTGATGAGGATGAACGGGAACTACGCCCGAAGGCTGATGAGTCAGGAAGCTGCAGATCTGGTGTGTGAGCTGGTGCCCTCGGAGGAAAGGCGGGAGGCCCTGAAGGAGCTCATGGGGCTCTACCTCCAGATGAAAGGCGAAGTCACAGAAAGAGAAGTAGCGTTGGGGATAAATCCGTTCGCAGACGGGATGGGCGCCTTCAAAATTAACCACAGCTCT------------CACGAC------ATTGGC---TCC------GGA---CAAAC AGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCGGCGGCTGCCCTGGGA------------CACCATCACCACCCGACC------CACGTTAGCTCT---TATTCCACGGCGGCT---------TTCAATTCCACACGGGACTTTCTCTTCAGAAATCGGGGTTTCGGAGACGCCACC---AGCGC G---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CAGATGCCGCC---GGACACCTGCTCTTCCCGGGGCTACACGAACAAGCGGCGAGTCAT------GCG TCTTCTAACGTCGTCAAC---AGCCAGATGCGATTG---GGCTTT---TCCGGGGACATGTACAGTCG GGCCGAC------CAGTACGGCCACGTTACGAGCCCGAGG------TCCGAC---CACTACGCCTCGA CCCAGTTGCACGGCTATGGCCCT---ATGAACATGAATATGGCCGCA------CATCAC---GGA---GCAGGGGCCTTCTTTCGTTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAACCMGAGCAACTGACGAATCCCAAAAAGTCGTGTAATAAAACTTTCAGTACGATGCATGAGCTAGTGACCCACCTGACGGTGGAGCATGTGGGGGGACCCGAGCAGTCGAACCACGTTTGCTTCTGGGAAGACTGTTCTCGAGAAGGAAAACCGTTCAAAGCCAAATACAAACTTGTTAATCATATCAGAGTACACACCGGAGAAATGGTCGGCACAGCCCTAAGTCTCCTCATCCGGGCAGAACTAAGTCAACCCGGGGCCCTGCTAGGGGATGATCAAATCTACAACGTCATTGTTACGGCACATGCCTTTGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGTGGATTTGGTAACTGACTCATCCCACTAATGATCGGAGCACCCGATATAGCATTTCCTCGAATAAACAACATAAGCTTTTGACTACTCCCCCCTTCATTCCTCCTGCTATTAGCCTCTTCCGGCGTAGAAGCGGGGGCTGGTACAGGATGAACTGTATACCCACCCCTTGCAGGTAATTTAGCACACGCTGGTGCCTCAGTTGACTTAACCATTTTCTCCCTTCATTTAGCAGGTGTCTCCTCAATTCTTGGAGCCATCAACTTTATTACAACTATTATTAACATGAAACCCCCAGCTATTTCCCAATACCAAACACCCTTGTTTGTATGATCAGTTTTAATTACCGCTGTTCTTCTACTGCTCTCCCTACCTGTCCTTGCAGCTGGCATTACCATGCTATTAACAGACCGAAATCTAAACACCACCTTCTTTGACCCTGCTGGGGGAGGAGATCCTATTCTCTACCAACACTTGTTCTGATTCTTTGGACACCCCGAAGTATATATTTTAATTTTACCAGGATTTGGTATAATCTCCCACATTGTTGCATACTATTCCGGCAAAAAAGAACCCTTCGGTTATATGGGAATGGTCTGAGCTATAATGGCCATTGGACTACTTGGATTTATCGTGTGAGCCCACCACATGTTTACCGTCGGTATGGACGTGGACACACGAGCTTAT
151
Percopsis transmontana ACCAAGAGGGTCATCCAGTACTTTGCCAGCATCGCTGCGGTC------GGCGGTGCAGCAAAGAAGGA CACTAGCAAGGGAACTCTTGAGGATCAAATCATCCAGGCCAACCCGGCACTGGAGGCGTTTGGCAACGCCAAGACCACCAGGAACGACAACTCCTCCCGCTTCGGAAAATTCATCCGGATTCACTTCGGAACAAGTGGGAAGCTGGCGTCTGCCGACATTGAAACATACCTTCTGGAAAAGTCCCGGGTATCCTTTCAGCTCAAGGCTGAGAGGAATTACCATATCTTCTTCCAGATTCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCATATGACTACTCCTACATCTCCCAGGGAGAAGTGACCGTCTCCTCTATCAACGACTCCGAGGAGCTAATGGCGACAGACAGCGCCTTTGACGTGCTTGGATTCACTCCCGAGGAGAAGATGGGCGTGTACAAGCTAATAGGAGCCATCATGCATTACGGCAACATGAAGTTTAAACAGAAACAGCGTGAGGAGCAGGCAGAGCCAGACGGAACCGAAGCAGCTGATAAGTCAGCATACCTGATGGGTCTAAACTCTGCTGACCTCATCAAAGGACTGTGCCACCCCAGGGTTAAGGTAGGAAATGAGTATGTCACCAAAGGACAAGGTGTAGACCAAGTCTACTACAAGGCCGTGCGATTCTCCTTTACCATTATGTCGGTGTCTGTGCTGCCGGAGGGAAAGGACGAGGCG------------------GTTACCGTCTTCAGGGAGCCCAAACCG AACTCGGAACTGTCCTGTAAGCCCCTGTGCCTGATGTTCGTGGATGAGTCGAACCACGAGATGCTCACTGCGGTCCTGGACCCTTTACTCGCCGAGAGGAGTGCCATGAAACAGAGCCGGCTCATCCTGTCCATAGGTGGCCTGCCTCGGTCCTTCCGCTTCCACTTCAGGGGGACTGGCTACGATGAGAAGATGGTGCGTGAAATGGAGGGCCTGGAGGCCTCTGGTTCCACCTACGTGTGCACCCTGTGTGACTCCACCAGAGCGGAGGCCTCCCAGAACATGGTGCTCCACTCTGTCACCCGCAGCCACCACGAGAATCTGGAGCGCTATGAAATCTGGAGGACCAATCCCTTCTCAGAGTCTGCAGAGGAGCTGCGGGACAGGGTGAAAGGGGTCTCTGCCAAGCCGTTCATGGAGACCCACCCGACTCTGGACGCGTTGCACTGCGACATCGGCAACGCCACAGAGTTTTACAAAATATTCCAGGACGAGATTGGCGAGGTGTTC---------------CGGAGGCCGAACCCCACCC GGGAGGAGCGGCGAAGCTGGAGGGCGTCGCTCGACAAGCAGCTGAGGCAGAAGATGAAGCTGAAGCCGGTGATGAGGATGAACGGGAACTACGCGCGTAAACTGATGACCGAGGAGGCTGTGGAGGTGGTGTGTGAGCTGGTGCCGTCCGATGAGCGACGGGAGGCCCTGAGAGAGCTCATGGGCCTCTACCTCCAGATGAAAGGCGAAGTCACAGAACGAGAAGTCGCGTTGGGGATAAATCCGTTCGCGGACGGGATGGGCGCCTTCAAGATCAACCACAGCTCC------------CATGAT------ATCGGC---TCT------GGA---CAGAC GGCGTTTTCC---TCCCAGGCGCCC---GGG---TAC------------GCAGCGGCTGCGCTGGGA------------CATCATCACCACCCCACA------CACGTAAGCTCT---TACTCCACGGCGGCG---------TTCAACTCCACCCGGGACTTTCTCTTTCGAAATCGGGGCTTCGGAGACGCTGCG---AGTGC G---CAGCACAGCTTGTTTGCATCCGCCGCG------GGAAGTTTCGCG---GGGCCACATGGACACT CAGATGCCGCG---GGGCACCTGCTCTTCCCGGGGCTCCATGAGCAAGCCGCTACGCAC------GCG TCTTCAAACGTGGTCAAC---AGCCAGATGCGGCTT---GGCTTT---TCCGGAGACATGTACGGCCG GGCTGAC------CAGTACGGCCACGTTACCAGCCCGAGG------TCCGAC---CACTATGCCTCAA CACAGTTGCACGGCTATGGCCCA---ATGAATATGAACATGGCCGCG------CACCAC---GGA---GCTGGGGCCTTCTTTCGGTACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAACCGGAGCAGTTGACGAACCCCAAAAAGTCGTGTAACAAAACTTTCAGCACAATGCATGAGCTGGTGACCCACCTCACCGTGGAGCATGTGGGGGGCCCAGAACAGTCGAACCACGTTTGTTTCTGGGAAGATTGCTCTCGAGAAGGAAAACCGTTCAAAGCAAAATACAAACTTGTCAATCACATTCGAGTGCACACCGGAGAGATAGTCGGCACAGCCCTGAGTCTGCTGATTCGGGCCGAGCTCAGCCAACCCGGAGCCCTTCTGGGAGACGACCAAATTTATAATGTAGTCGTCACAGCACACGCCTTCGTAATAATCTTCTTCATAGTTATACCCATTATGATTGGAGGCTTTGGCAACTGATTGGTCCCCCTAATAATTGGCGCCCCCGACATGGCATTCCCCCGAATGAACAACATAAGCTTCTGACTCCTGCCCCCTTCCTTCCTCCTCCTACTAGCCTCATCGGGCGTAGAAGCAGGAGCAGGTACGGGGTGAACCGTCTACCCTCCCCTGGCAGGGAACCTTGCCCATGCGGGAGCCTCCGTTGATCTCACAATTTTCTCCTTACACCTTGCAGGAGCCTCCTCTATCCTCGGAGCTGTAAATTTTATCACAACAATTATTAACATGAAACCTCCCGCAATTTCTCAATACCAAACACCCCTGTTTGTGTGATCCGTACTAATTACCGCCGTACTGCTGCTCTTGTCCCTTCCTGTTCTTGCAGCAGGGATTACAATGCTTCTCACAGACCGAAACCTAAATACAACCTTCTTCGACCCCGCAGGAGGAGGGGACCCAATTCTTTACCAACACCTTTTCTGGTTCTTCGGACACCCCGAAGTATACATTCTTATTCTCCCGGGCTTCGGAATAATCTCCCACATCGTTGCCTACTACTCAGGAAAAAAAGAACCCTTTGGCTACATAGGCATAGTATGGGCAATAATGGCCATCGGGCTCCTTGGGTTTATTGTTTGAGCCCACCACATATTCACCGTGGGCATGGATGTGGACACACGAGCTTAT
152
Gadus morhua ACCAAGCGAGTCATCCAATACTTTGCCAGTATCGCTGCGGTT------GGCGGTGCGGTCAAGAAGGA TGCCAACAAAGGGACTCTGGAGGATCAAATCATCCAGGCCAACCCTGCGCTAGAGGCCTTCGGTAATGCCAAAACCCTGAGGAATGACAACTCCTCTCGTTTTGGAAAGTTCATCCGGATTCACTTCGGGAACAGCGGCAAGCTTAGCTCTGCAGACATCGAGACCTACCTGCTTGAAAAGTCCAGAGTCACTTTCCAGCTGAAGTCTGAGAGGAACTATCACATATTCTTCCAGATCTTGTCCAATCAGAAGCCGGAGCTGTTGGACATGCTGTTAATTACCAACAACCCCTACGATTACTCCTACATCTCCCAAGGAGAGGTAACCGTCGCCTCCATCAACGACTCTGAGGAGCTCATAGGCACTGATAGTGCGTTTGATGTCCTCGGCTTCACCCTGGAAGAAAAGATGGGGGTGTACAAGCTGACTGGTGCCATCATGCACTATGGCAACATGAGGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGTCAGACGGGACTGAAGCGGCTGATAAATCAGCATACCTCATGGGTCTGAACTCGGCGGATCTCATCAAAGGTCTCTGCCACCCTAGGGTGAAGGTAGGGAATGAATATGTCACCAAAGGTCAAGGGGTGGATCAGGTCTACTACAAGGTTGTGCGTTTCTCCTTCACCGTTATGTCTGTCTCTGTCCTGGCCGACGGTGAAGACAGGGAG------------------GTCACCATCTTCACTGAGCCAAAGCCA AACTCAGAGCTGTCCTGTAAGCCCCTTTGCCTGATGTTTGTGGATGAGTCCGACCACGAGACCCTCACAGCCGTCCTGAGGCCTATCGTCGCAGAGCGTAATGCAATGAAAGAGAGCAGGCTCATCCTATCCATCGGTGGCCTGCCTCGCTTTTTTCGCTTCCGCTTCCGAGGCACGGGATACGATGAGAAGATGGTGCGAGAGATGGAGGGCCTGGAGGCCTCGGGCTCTACATACATCTGCACTTTGTGTGACTCAAGTCGAGCCGAGGCTTCTCAAAACATGGTGCTGCATTCCATCACCCGCTGTCATGAGGAGAACCTTGACCGGTACGAAATATGGAGAACGAACCCTTTCTCTGAGTCTGTAGACGAGCTGCGGGACCGAGTCAAAGGCGTCTCGGCCAAGCCCTTCTTGGAGACCCAGCCCACAATGGATGCGTTACATTGTGACATCGGCAACGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN---------------NNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCCGAAGTCACAGAAAGAGAAGTCGCGTTGGGGATAAACCCGTTCGCAGACGGAATGGGCGCCTTCAAAATAAACCACAGTTCT------------CACGAC------ATTGGC---TCC------GGA---CAAAC TGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCAGCGGCTGCCCTCGGA------------CACCACCATCACCCCACC------CATGTTAGCTCT---TACTCCACCGCCGCC---------TTCAACTCTACACGGGACTTTCTTTTCAGAAACCGGGGCTTCGGAGACGCCACC---AGCGC G---CAGCACAGTTTGTTCGCCTCCGCCGCG------GGAAGTTTTGCA---GGGCCACATGGACACT CCGATGCCACG---GGACACCTGCTCTTCCCCGGGCTGCACGAGCAAGCGGCGAGCCAC------GCG TCTTCCAATGTGGTCAAC---AGCCAGATGCGACTG---GGCTTT---TCCGGAGACATGTACGGCCG GGCCGAC------CAGTACGGCCACGTTACGAGCCCGAGG------TCCGAC---CACTACGCGTCGA CCCAGTTGCACGGTTATGGCCCT---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCCGGGGCCTTCTTTCGGTACATGAGGCAGCCGATCAAGCAAGAGCTGATCTGCAAGTGGATCGAGCCGGAGCAACTGTCAAACCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTGGTGACCCATCTCACGGTGGAGCACGTGGGGGGACCAGAACAGTCGAACCACATCTGTTTCTGGGAAGAGTGTTCCCGAGAAGGGAAACCGTTCAAAGCAAAATACAAACTGGTGAATCATATCAGAGTGCACACCGGAGAAATAGTCGGAACAGCCCTAAGCCTGCTCATTCGAGCAGAGCTAAGTCAACCTGGTGCACTTCTTGGTGATGATCAAATTTATAATGTGATCGTTACAGCGCACGCTTTCGTAATAATTTTCTTTATAGTAATACCACTAATAATTGGAGGCTTTGGGAACTGACTCATTCCTCTAATGATCGGTGCACCAGATATAGCTTTCCCTCGAATAAATAACATAAGCTTCTGACTTCTTCCTCCATCTTTCCTGCTCCTTTTAGCATCCTCTGGTGTAGAAGCTGGGGCTGGAACAGGCTGAACTGTCTATCCACCTTTAGCCGGAAACCTCGCTCATGCTGGGGCATCTGTTGATCTCACTATTTTTTCTCTTCATCTAGCAGGGATTTCATCAATTCTTGGGGCAATTAATTTTATTACCACAATTATTAATATGAAACCTCCGGCAATTTCACAGTACCAAACACCCCTATTTGTTTGAGCAGTACTAATTACAGCTGTGCTTCTACTATTATCTCTCCCCGTCTTAGCAGCTGGTATCACAATACTTCTAACTGACCGTAATCTTAATACTTCTTTCTTTGACCCTGCTGGAGGAGGTGATCCCATTTTATACCAACACTTATTCTGATTCTTCGGGCATCCCGAAGTTTATATTCTTATTTTACCCGGCTTCGGAATAATTTCCCACATCGTAGCATACTACTCAGGTAAAAAAGAACCCTTCGGGTATATGGGTATAGTCTGAGCTATGATGGCTATTGGCCTCCTTGGCTTTATTGTATGAGCCCATCACATGTTTACAGTCGGAATGGACGTAGACACACGTGCTTAC
153
Brotulotaenia nigra ACCAGGAGAGTCATCCAGTACTTTGCAAGCATTGCCGCAGTT------GGCAGCGGACTCAAGAAAGA CACCAGCAAGGGGACATTGGAAGATCAAATCATCCAGGCGAACCCAGCCCTGGAGGCCTTCGGTAATGCCAAAACAGTGAGGAACGACAACTCATCCCGTTTTGGAAAATTCATCCAAATTCACTTTGGAAACAGCGGCAAGTTGTCATCCGCTGACATTGAGACATATTTGCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCTGAAAGGAACTACCACATCTTCTACCAGATCTTGTCCAATCAGAAGCCAGAGCTGTTGGACATGCTTCTGATCACAAACAACCCGTATGACTACTGCTACATCTCTCAAGGGGAGGTAACAGTCGCATCAATCAATGAYGCAGAAGAGCTGATGGCCACTGACAGTGCCTTTGACGTGCTCGGCTTCACTGCAGAGGAAAAGATGGGTGTTTATAAGCTGATTGGTGCCATCATGCACTATGGCAACATGAAGTTTAAACAGAAGCAACGTGAGGAGCAGGCTGAACCTGACGGGACGGAGGCTGCTGATAAATCAGCTTACCTGATGGGTCTGAACTCTGCAGACCTCATTAAAGGGCTGTGCCATCCCAGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGGCTGTACGTTTCTCTTTCACTATTATGTCTGTCTCTGTCCTGGCAGACAGCGAGGTGGAGGCG------------------GTTACCATCTTTACTGAGCYAAAGCCA AACTCTGAATTGTCCTGTAAGCCCCTTTGCCTCACGTTTGTGGATGAGTCAGACCATGAGACTCTAACAGCTGTCCTGAGCCCTATAGTTGCAGAGCGTAATGCTATGAAAGAGAGTAGACTCATCCTATCCATGGGTGGTCTGCTTCGATCCTTCCGCTTCCACTTCMGAGGCACAGGATATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGTTCAACCTATGTCTGCACTCTGTGTGACTCCACTCGGGCAGAAGCCTCTAAGAACATGGTGCTGCACTCCGTCACCCGCAGCCATGAAGAGAACTTAGAGCGCTATGAAATATGGAGAACCAATCCCTTTTCTGAGTCTGTAGAGGAGCTGCGGGACCGMGTCAAAGGGGTCTCTGCCAAGCCCTTTATGGAGACCCAACCCACACTGGATGCTTTACACTGTGACATTGGTAATGCCACTGAGTTCTACAAAGTCTTCCAGGACGAGATTGGGGAAGTGTAC---------------CAAAAGGTCAACCCCACAC GGGAGGAACGGCGTAGCTGGAGGGCAGCTCTAGATAAACAGCTGAGGAAGAAGATGAAGCTTAAGCCGGTAATGAGGATGAATGGGAACTATGCCCGGAAGCTAATGACCCTGGAGGCTGTGGAGGTGGTGTGTGAGCTGGTGCCGTCAGAAGACAGGAGGGAGGCCTTGAGGGAGCTCATGAGGCTCTACATTCAGATGAAGGGCGAGGTCACGGAGAGAGAAGTGGCGTTGGGGATAAATCCTTTCGCGGACGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAC------ATTAGC---TCT------GGG---CAGAC GGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCAGCAGCCGCCCTGGGA------------CACCACCACCACCCGACC------CACGTTGGCTCT---TACTCCACGGCGGCT---------TTCAACTCCACCAGGGACTTTCTGTTCAGAAATCGGGGTTTCGGGGACGCGACC---GGCGC G---CAGCACAGCTTGTTCGCCTCC------------GGAAGTTTCGCA---GGGCCACATGGACACT CGGATGCGGCG---GGGCACCTGCTCTTTCCGGGGCTCCACGAGCAAGCGGCGAGCCAT------GCG TCTTCCAACGTGGTCAAC---GGTCAGATGCGACTG---GGCTTC---TCGGGGGACATGTACGGCCG GGCCGAC------CAGTACGGCCACGTTACGAGCCCCAGG------TCCGAC---CACTACGCGTCGA CCCAGTTGCACGGCTACGGCCCC---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCGGGGGCCTTCTTTCGATACATGCGGCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAACCGGAGCAGCTGACGAACCCCAAAAAGTCGTGCAACAAAACTTTCAGCACGATGCACGAGCTTGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCGGAGCAGACCAACCACATCTGCTTCTGGGAGGACTGCTCCAGGGAAGGGAAGCCGTTCAAAGCCAAATACAAACTTGTGAATCACATCAGGGTGCACACCGGGGAAATGGTCGGGACAGCTCTAAGCCTGCTAATTCGAGCAGAACTGAGCCAACCCGGCGCTCTCCTTGGAGACGATCAAATTTATAATGTAATCGTCACAGCTCATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATCATAATCGGGGGCTTCGGCAACTGATTAATTCCGCTGATGATCGGCGCCCCCGACATGGCATTCCCTCGTATAAATAATATGAGCTTTTGACTTCTACCCCCATCATTCCTCCTACTTCTAGCATCTTCCGGTGTAGAAGCTGGAGCTGGTACCGGTTGAACGGTATACCCACCCCTGGCAGGCAACCTAGCACATGCGGGAGCTTCTGTAGACCTAACAATCTTCTCTCTTCACCTGGCGGGTGTTTCGTCGATTCTCGGGGCTATCAATTTTATCACCACCATTATCAACATGAAACCCCCAGCCATTTCTCAGTACCAGACACCCCTCTTTGTTTGAGCAGTTCTGATCACTGCCGTTCTTCTACTTCTATCTCTCCCAGTACTAGCCGCTGGTATTACAATGCTTTTAACCGATCGTAATTTAAACACAACCTTCTTTGACCCGGCAGGCGGCGGGGACCCAATCCTTTACCAACACCTATTCTGATTCTTTGGGCACCCGGAAGTGTACATTCTAATTCTACCTGGATTCGGCATGATCTCACACATCGTAGCCTACTACTCAGGTAAGAAAGAACCCTTCGGATACATGGGAATGGTCTGAGCCATAATGGCCATCGGACTACTGGGCTTCATTGTGTGAGCTCACCACATGTTCACGGTAGGCATGGATGTAGACACACGGGCATAT
154
Lophiodes reticulatus ACCAAGAGAGTCATTCAGTACTTTGCTAGCATTGCTGCAGTT------GGTGGCGGAGGCAAGAAAGA CACCAGTAAGGGAACCCTGGAGGATCAAATCATCCAAGCTAACCCTGCACTGGAAGCCTTCGGTAACGCCAAAACGCTGAGAAACGACAACTCCTCCCGTTTTGGGAAGTTCATCCGAATTCACTTTGGTCCAAGCGGCAAGCTGTCATCTGCTGACATCGAGACGTACCTGCTGGAGAAGTCACGAGTCACCTTTCAGCTCAAGGCTGAGAGAAATTACCACATCTTCTACCAGATACTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTCCTGATCACCAACAACCCCTATGATTACTCCTACATCTCACAAGGAGAGGTAACCGTTGCCTCCATCAACGACTCTGAGGAGCTGATGGCCACGGACAGCGCCTTCGACGTGCTCGGCTTCACAGCAGATGAGAAGATGGGCGTCTACAAACTAACGGGGGCCATCATGCACTATGGAAACATGAAGTTCAAGCAGAAACAGCGAGAAGAGCAGGCTGAGCCCGACGGGACGGAGGCCGCTGATAAATCAGCTTACCTAATGGGGCTGAACTCTGCAGACCTCATCAAGGGGCTGTGCCATCCCAGAGTCAAGGTGGGAAATGAGTATGTTACTAAAGGCCAAAGTGTGGACCAAGTTTACTATAAGGCTGTGCGTTTCTCTTTCACTGTTATGTCTGTCTCTGTCCGGACAGAACATGAGGAAGAGGAG------------------GTAACAATCTTCACAGAGGAAAAGCCA AACTCAGAACTGTCCTGTAAGCCCCTTTGCCTGATGTTTGTGGATGAGTCAGACCATGAGACACTCACAGCCATCTTGCATCCTATAATTGCAGAGCGTAATGCGATGAAAGAGAGCAGACTCATCCTAACCATGGGTGGACTACCTCGCTCTCTCCAATTTCACTTCAGAGGCACGGGATATGATGAGAAGATGGTACGAGAGGTTGAGGGCCTCGAGGCCTCTGGGTCCACCTACGTTTGCACTCTCTGTGACTCCAGCCGTGCAGAGGCCTGTCAGAACATGGTGCTACATTCCATCACCCGCAGTCATGAAGAGAACCTAGAACGTTATGAAATGTGGAGAACCAACCCCTTCTCTGAGTCTGTAGATGAGCTGCGAGACAGAGTCAAAGGGGTCTCTGCCAAGCCCTTCATGGAAACCCATCCAACCCTCGATGCATTACACTGTGACATAGGAAATGCCACCGAGTTCTATAAAATATTCCAGGATGAGATTGGGGAGGTGTAC---------------CAGAAGGGCAATCCCAGCC GTGAGGAGCGGCGCAGCTGGAGGGCAGCCCTAGATAAACAGCTGAGGAAGAAGATGAAACTCAAACCGGTAATGAGGATGAATGGGAACTATGCCCGCAAGCTAATGACCCAGGAGGCTGTGGAGGTGGTGTGCGACATGGTGCCCTCAGAGGACAGGAGGGAGGCCCTGAGGGAGCTGATGAGACTCTACCTCCAGATGAAGGGCGAAGTCACAGAGAGAGAAGTGGCGCTGGGGATAAATCCGTTCGCAGATGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAT------ATTGGC---TCC------GGA---CAGAC AGCGTTTTCC---TCCCAGGCTCCC---GGC---TAC------------GCAGCAGCCGCCCTGGGG------------CACCATCACCACCCGACC------CATGTTGGTTCT---TACTCCACGGCTGCT---------TTCAACTCCACCAGGGACTTTCTCTTCAGAAATCGAGGATTCGGGGACGCCACC---GGCGC G---CAGCACAGTTTGTTCGCCTCC------------GGAAGTTTCGCA---GGGCCACATGGACACT CAGATGCAGCG---GGGCACCTGCTCTTCCCGGGGCTCCACGAGCAAGCGGCGACTCAC------GCG TCTTCCAATGTGGTCAAC---AGCCAGATGCGGCTG---GGCTTC---TCCGGGGACATGTACGGACG GGCTGAC------CAGTACGGCCACGTTACGAGCCCGCGC------TCCGAC---CACTATGCCTCGA CCCAGCTGCACGGCTACGGCCCT---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTCCGATACATGAGGCAGCCCATCAAACAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGTCGAACCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCGGAGCAGACGAATCACATCTGCTTCTGGGAGGATTGCGCCAGAGAGGGGAAGCCATTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTTCACACCGGCGAAATAGTGGGCACTGCCCTAAGCCTGCTCATTCGTGCTGAGTTAAGCCAACCTGGCGCCCTCTTAGGTGACGACCAAATCTATAACGTAATTGTTACTGCGCATGCGTTCGTGATAATCTTCTTCATAGTCATACCCATTATGATCGGAGGCTTCGGCAACTGACTAATCCCCTTAATGATTGGGGCCCCCGACATAGCTTTTCCTCGGATGAATAACATGAGCTTCTGGCTCCTCCCCCCCTCCTTTCTCCTCCTCCTTGCCTCTTCTGGCGTAGAGGCAGGGGCCGGCACTGGCTGAACGGTCTACCCGCCGCTAGCGGGGAACCTTGCACACGCAGGTGCTTCTGTGGACCTCACTATCTTTTCACTCCACTTGGCCGGGATCTCATCAATTCTAGGGGCTATCAATTTTATTACAACTATTATTAACATGAAACCCCCAACTATCTCTCAGTACCAAACCCCTTTATTTGTGTGGGCTGTACTAATCACCGCTGTCCTCCTCTTACTATCACTGCCAGTGCTTGCCGCCGGCATCACAATGCTTTTAACGGACCGAAATCTAAACACCACCTTCTTTGATCCAACTGGCGGAGGGGACCCCATCCTTTATCAACACTTATTCTGGTTCTTCGGGCACCCCGAAGTGTACATTTTAATCCTCCCAGGATTCGGAATGGTTTCACACATTGTCGCCTACTATGCAGGTAAAAAAGAGCCCTTTGGCTACCTCGGCATGGTCTGAGCGATGATGGCCATCGGCCTGCTGGGGTTTATTGTCTGAGCACACCACATATTTACAGTGGGTATGGATGTGGACACGCGAGCTTAT
155
Mugil trichodon ACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCAGCGGTT------GGAGGCGCAGGCAAGAAAGA CAGCAGCAAGGGGACGCTGGAGGATCAGATCATTCAGGCTAACCCGGCGCTGGAGGCCTTCGGCAACGCCAAGACGCTGAGGAACGACAACTCCTCTCGCTTTGGAAAATTTATCCGAATTCACTTCGGCCCGAGTGGCAAACTATCGTCTGCCGACATTGAGACGTACCTGCTGGAGAAGTCCCGTGTCACCTTTCAGCTCAAAGCCGAGAGGAACTATCACATCTTCTACCAGATCCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTACTGATCACCAACAACCCCTACGACTACTCCTACATCTCCCAAGGAGAGGTGACGGTCGCCTCCATCAACGACTCGGAGGAGCTGATGGCCACTGACAGCGCCTTCGACGTCCTCGGCTTCACTCTGGAGGAGAAGATGGGCGTCTACAAACTGACCGGAGCCATCATGCATTATGGGAACATGAAGTTTAAACAGAAGCAGCGTGAGGAGCAAGCTGAGCCGGACGGGACCGAGGCTGCCGATAAATCCGCCTACCTGATGGGGCTGAACTCCGCAGACCTCATCAAAGGGTTGTGTCATCCCAGGGTCAAGGTGGGAAACGAATACGTTACCAAAGGTCAAAGCGTGGACCAGGTGTACTACAAGGCAGTACGCTTCTCTTTCACCGTCATGTCTGTCTCCGTCCTGGCAGACGAAGAGGAGGAGGAG------------------GTTACCATTTTCACCGAGCCAAAGCCA AACTCAGAGCTGTCCTGTAAGCCCCTTTGTCTGATGTTTGTGGATGAGTCAGACCATGAGACACTCACGGCTGTCATGGCCCCCATAGTTGCGGAGCGTAACGCAATGAAAGAGAGCAGGCTCATCCTCTCCATAGGCGGCCTGCCTCGATCTTTTCGGTTCCATTTCAGGGGGACGGGATACGACGAGAAGATGGTGCGTGAGCTTGAGGGCCTGGAGGCCTCGGGGTCCACATACGTCTGCACACTGTGTGACTCCACTCGGGCAGAGGCTTCCGAAAACCTGGTGCTGCACTCCATCACTCGCAGTCACGAGGAGAACCTAGAACGCTACGAAATATGGAGAACCAACCCCTTTTCTGAGTCCCCAGATGAGCTGCGAGACAGGGTCAAAGGGGTTTCYGCCAAACCYTTCATGGAGACCCAGCCCACTCTAGATGCATTGCACTGTGACATCGGCAATGCTACTGAATTCTACAAAATCTTTCAAGATGAGATCGGGGAAGTGTAC---------------CAAAAGGTCAACCCCAGCC GGGAGGAACGGCGCAGCTGGAGGGCAGCCCTAGATAAACAACTGAGGAAGAACATGAAGCTCAAACCAGTAATGAGGATGAATGGAAACTATGCCCGCAAGCTAATGACCCTGGAGGCTGTGGAGGTAGTGTGCGAGCTTGTGCCCTCAGAGGAGAGAAGGGAAGCCCTGAGGGAGCTTATGAGGCTCTATCTCCAAATGAAAGGCGAAGTCACAGAGAGAGAAGTGGCGTTGGGGATAAATCCGTTCGCGGATGGGATGGGCGCCTTCAAAATAAACCACAGTTCC------------CATGAT------ATTGGC---TCC------GGA---CAGAC GGCGTTTTCC---TCCCAGGCGCCC---GGC---TAC------------GCTGCAGCAGCCCTGGGG------------CACCATCACCACCCGACC------CACGTTGGCTCT---TACTCCACGGCGGCT---------TTCAACTCCACCAGGGACTTTCTCTTCAGAAATCGGGGTTTCGGGGATGCCACC---GGGGC G---CAGCACAGTTTGTTCGCCTCC------------GGAAGTTTCGCA---GGGCCACATGGACACT CAGATGCAGCG---GGTCACCTGCTCTTCCCAGGGCTTCACGAGCAAGCGGCGAGCCAC------GCG TCTTCCAACGTGGTCAAC---AGCCAGATGCGGCTG---GGCTTC---TCGGGGGACATGTACGGACG CGCCGAC------CAGTATGGCCACGTTACAAGCCCGAGG------TCCGAC---CACTACGCTTCGA CCCAGCTGCACGGCTATGGCCCC---ATGAACATGAATATGGCCGCA------CACCAC---GGA---GCAGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGACGAATCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATCTGACGGTGGAGCATGTTGGGGGACCGGAGCAGACCAACCACATTTGCTTCTGGGAGGACTGCTCCAGAGAAGGGAAGCCGTTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTACACACCGGTGAAATAGTNGGGACCGCCCTAAGCCTTCTTATCCGGGCCGAACTAAGCCAACCCGGGGCTCTTCTGGGCGACGACCAGATCTATAATGTAATCGTTACAGCCCATGCTTTCGTTATAATCTTCTTTATAGTAATGCCAATTATGATCGGGGGCTTCGGAAACTGATTAATCCCCCTAATGCTGGGGGCACCCGACATAGCATTCCCTCGAATAAATAACATAAGCTTCTGACTCCTGCCTCCCTCATTCCTCCTCCTTTTGGCATCTTCAGGGGTAGAATCAGGGGCCGGAACAGGGTGAACCGTCTACCCTCCTCTGGCGGGTAATCTTGCCCATGCTGGAGCATCTGTTGACCTTACCATTTTCTCCCTTCACTTGGCAGGTGTTTCTTCAATCCTAGGTGCTATTAACTTTATCACAACCATTCTTAATATAAAACCTCCAGCCCTCTCCCAATATCAAACACCCCTTTTCGTCTGAGCTGTCCTAATTACTGCTGTCCTCCTCCTCCTGTCCCTCCCTGTATTAGCCGCCGGCATCACCATGCTCTTAACAGACCGGAACCTTAACACCTCTTTCTTCGACCCTGCAGGAGGAGGAGACCCAATCCTATACCAGCATCTATTCTGATTCTTTGGCCACCCAGAAGTCTACATTCTAATTCTTCCTGGCTTTGGGATAATCTCACACATTGTCGCATACTACTCCGGAAAACAAGAACCTTTCGGTTACATAGGAATGGTTTGAGCTATGATGGCCATCGGCCTCCTAGGCTTTATTGTTTGAGCCCATCATATGTTTACGGTAGGAATGGACGTAGACACCCGTGCCTAC
156
Melamphaes suborbitalis ACCAAGAGGGTCATCCAGTACTTTGCCAGCATTGCTGCTGTG---------------GGCAAGAGGGA TACCAGCAAGGGAACACTGGAAGATCAAATCATCCAGGCAAACCCTGCCCTGGAGTCCTTTGGTAACGCCAAAACAGTGAGGAATGACAACTCATCCCGTTTTGGAAAATTCATCAGAATTCACTTTGGAACCAGTGGCAAGCTGTCGTCTGCTGACGTTGAGACTTACCTACTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCTGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATTACCAACAACCCATACGACTACTCTTTCATCTCCCAAGGAGAGGTAACAGTACACTCCATCAACGATTCAGAGGAACTGATAGCCACTGATAGCGCCTTTGATGTGCTTGGTTTCAGTCCAGATGAGAAGATGGGAATCTACAAGCTGATCGGTGCCATTATGCACTATGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAAGCTGAGCCTGACGGAACGGAGGCTGCTGACAAGGCAGCTTACCTGATGGGGCTGAACTCTGCAGACCTCATCAAAGGACTGTGCCATCCCAGAGTCAAGGTAGGAAATGAATATGTCACCAAAGGCCAGGGTGTAGAACAAGTCTACTACAAGGCTGTACGTTTCTCTTTTACTGTCATGTCTGTCTCTGTCTTGGCAGAAGGAGAGGAGGAGGAG------------------GTTACCATCTTCAGGGAGCAAAAGCCG AACTCAGAACTGTCCTGTAAGCCCCTATGTCTGATGTTTGTGGATGAGGCAGACCACGAGACACTCACTGCCGTCCTGGGGCCCGTCGTTGCAGAGCGGAATGCTATGAAGCAGAGTCGACTCATCCTATCTGTGGGTGGCCTGCCTCGCTCATTTCGCTTCGAATTCAGAGGCACGGGATACGATGAGAAGATGGTGCGTGATTTGGAGGGCCTGGAGGCCTCAGGCTCCACCTACATCTGCACTCTGTGTGACTCCACCCGGGCAGAGGCCTCCCACAACATGGTGCTGCACTCCATCACCCGCAGTCACGACGAAAACCTGGAGCGTTATGAAATATGGAGGACCAATCCGTTTTCYGAGTCCGCCGACGAGCTGCGAGACCGGGTCAAAGGCGTCTCCGCCAAGCCCTTCATGGAGACCCATCCCACTTTGGATGCATTGCACTGTGACATTGGTAATGCTACRGAGTTTTACAAAATCTTCCAGGATGAGATCGGGGAGGTGCAC---------------CAGAAGGCCAACCCCACCC GGGAGCAACGGCGGAGCTGGAGGGCAGCTCTAGACAAGCAACTGAGGAAGAAAATGAAGCTTAAACCGGTGATGAGGATGAATGGGAACTACGCCCGGAAGCTAATGACCGAGGAGGCGGTGGAGGTGGTGTGTGAGCTGGTGCCCTCAGAAGAGAGGAGGCAGGCCCTGAGGGATCTTATGGGGCTCTACCTGCAGATGNNNGGCGAAGTCACAGAGAGAGAAGTGGCGCTGGGGATAAACCCGTTCGCGGACGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAC------ATTGGC---TCC------GGG---CAGAC GGCGTTCTCC---TCGCAGGCTCCC---GGC---TAT------------GCAGCGGCCGCCCTGGGA------------CACCATCACCACCCGACC------CACGTCGGCTCTGCCTACTCCACGGCGGCT---------TTCAACTCCACGCGGGACTTTCTCTTCCGAAATCGGGGCTTCGGAGACGCCGCC---GGGGC G---CAGCACAGCTTGTTCGCCTCC------------GGGAGTTTCGCA---GGGCCACATGGACACT CTGATGCGGCG---GGGCACCTGCTCTTCCCGGGGCTCCATGAGCAAGCGGCGAGCCAC------GCG TCTTCCAACGTGGTCAAC---AGCCAGATGCGACTG---GGCTTC---TCGGGGGACATGTACGGTCG GGCAGAT------CAGTACGGCCACGTTACAAGCCCGAGG------TCCGAC---CACTATGCTTCGA CCCAGTTGCACGGCTATGGTCCC---ATGAACATGAATATGGCCGCA------CACCAT---GGA---GCAGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGTCGAACCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATCTGACGGTGGAGCATGTGGGGGGGCCAGAGCAGTCCAACCACATCTGCTTCTGGGAAGACTGCGCCAGAGAAGGGAAGCCGTTCAAAGCCAAATACAAACTTGTGAATCATATCAGGGTACACACCGGAGAAATAGTCGGCACTGCCCTAAGCCTCCTAATTCGAGCAGAACTAAGCCAGCCGGGGGCCCTCCTAGGGGACGACCAAATCTACAATGTAATTGTTACCGCCCACGCTTTTGTAATAATCTTTTTTATAGTAATACCAATCATGATTGGCGGGTTCGGAAACTGACTCATCCCCCTTATGATTGGGGCCCCTGATATAGCCTTCCCCCGTATAAATAACATAAGCTTCTGACTCCTCCCTCCCTCTTTCCTTCTCCTCTTGTCTTCTTCCGCAGTAGAAGCAGGAGCAGGCACAGGATGAACTGTTTACCCCCCTCTTGCAAGCAACCTGGCCCATGCCGGCGCCTCAGTAGACCTAACAATCTTCTCTCTTCACCTGGCAGGGGTTTCTTCAATCCTAGGCGCCATTAACTTTATTACAACCATTATTAATATGAAACCCCCAGCTGTCTCACAATACCAAACACCCTTATTTGTTTGATCAGTCCTGGTCACAGCCGTCCTCCTCCTTCTTTCCCTGCCCGTCCTTGCGGCCGGTATTACAATGCTGCTAACAGACCGCAACCTTAATACAACCTTCTTCGACCCCGCCGGGGGAGGAGACCCCATTCTCTATCAACACTTATTCTGATTCTTCGGCCACCCAGAAGTTTATATTCTCATCCTCCCCGGCTTTGGAATAATCTCCCATATTGTTGCCTACTACTCAGGTAAAAAAGAACCCTTTGGATATATAGGAATAGTGTGGGCTATAATAGCCATTGGTCTACTAGGCTTCATCGTGTGAGCCCACCATWTGTTCACCGTCGGGATAGACGTGGACACACGAGCATAT
157
Gasterosteus aculeatus ACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCTGCGGTC---------GGCGGAGGCAAACGGGA CACTAGTAAGGGGACGCTGGAGGACCAGATTATCCAGGCCAACCCGGCACTGGAGGCCTTTGGAAATGCCAAAACGCTGAGGAATGACAACTCATCTCGTTTTGGGAAATTCATCCGAATTCACTTTGGTACAAGTGGGAAGCTGTCATCTGCCGATATCGAGACTTACCTGCTGGAAAAGTCCCGGTGCACCTTTCAGCTCAAGGCTGAGAGGAACTACCACATCTTCTACCAGATCCTCTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCGTACGACTACTCCTACATCTCCCAGGGAGAGGTGACGGTGGCCTCCATCAATGACTCGGAGGAGCTGCTGGCCACCGACAGCGCCTTTGACGTGCTGGGCTTCACTCCGGAGGAGAAGATGGGTGTCTATAAACTCACCGGGGCCATTATGCACTACGGCAACATGAGGTTCAAACAGAAGCAGCGCGAGGAGCAGGCTGAGCCGGACGGGACCGAGGCCGCTGATAAAACAGCCTACTTGATGGGGCTGAACTCTGCCGACCTCATCAAGGGGTTGTGTCATCCCAGGGTGAAGGTCGGGAATGAATACGTAACCAAAGGTCAAAGTGTGGACCAAGTCTACTACAAGGCTGTGCGTTTTTCTTTTACTGTCATGTCTGTCTCTGTGCTGGCAGACGAGGAGGTGGAAGAA------------------GTTACCATCTTCACTGAGGCAAAGCCA AACTCAGAACTGTCCTGTAAGCCTCTTTGCTTGATGTTCGTGGATGAGTCGAACCACGAGACGCTCACAGCTGTCCTGGGGCCAATAGTTGCCGAGCGCAATGCGATGAAAGAAAGCAGGCTCATCCTCTCCGTGGGCGGACTCCCTCGCTCCTTCCGCTTTCACTTCAGGGGCACGGGATATGATGAGAAGATGGTGCGCGAGGTAGAGGGCCTGGAGGCGTCAGGGTCCACCTACGTCTGCACTCTTTGCGACTCCACTCGCGCGGAGGCCTCTAAAAACATGGTGCTGCACTCCATCACCCGCAGTCACGAAGAGAACCTGGATCGTTACGAGATATGGAGAACCAACCCGTTTTCTGAATCTGTGGAGGAGCTGCGGGACAGAGTCAAAGGGATCTCTGCCAAACCCTTCATGGAGACCCAGCCCACGATGGATGCACTGCACTGTGACATCGGCAACGCCACAGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGTAC---------------CGAAAGGTCAACCCCAGTC GGGAAGAACGGCGAAGCTGGAGGGCGGCGCTGGACAAACAGCTCAGGACGAAGATGAAGCTCAAACCGGTGATGAGGATGAATGGGAACTACGCCCGCCGGCTAATGACCCAAGAGGTCGTGGAGGTGATTTGTGAGCTGGTGCCCTCCGAGGAGAGGAGGGAGGCCCTGAGGGAGCTGATGAGGCTCTACATCCAAATGAAGGGCGAAGTCACAGAGAGAGAAGTAGCGTTGGGGATCAATCCGTTCGCGGATGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAC------ATCGGC---TCC------GGA---CAAAC GGCGTTTTCC---TCTCAGGCGCCC---GGC---TAC------------GCAGCGGCCGCCCTGGGA------------CACCATCACCACCCGACC------CACGTTGGCTCT---TACTCCACGGCGGCT---------TTCAACTCCACCAGGGGCTTTCTCTTCAGAAATCGGGGTTTCGGGGACGCCACC---GGGGC G---CAGCACAGTTTGTTCGCCTCC------------GGGAGTTTCGCA---GGGCCACATGGACACT CGGATGCAGCG---GGGCACCTGCTCTTCCCGGGACTCCACGAGCAAGCGGCGAGCCAT------GCG TCTTCCAACGTGGTCAAC---AGCCAGATGCGGCTG---GGCTTC---TCGGGGGACATGTACGGGCG GGCCGAC------CAGTACGGCCACGTTACAAGCCCGCGG------TCCGAC---CACTACGCATCGA CCCAGCTGCACGGCTACGGCCCC---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCGGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAGCAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGACGAATCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTCGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCAGAGCAGACCAACCACATCTGCTTCTGGGAGGAATGCGCCCGAGAAGGAAAGCCGTTCAAAGCCAAATACAAACTTGTGAACCATATCAGAGTACACACCGGAGAAATAGTCGGAACAGCTTTAAGCCTTCTAATTCGAGCTGAACTAAGTCAACCCGGAGCTCTTCTTGGAGACGACCAAATTTATAACGTAATTGTTACAGCCCATGCTTTCGTAATAATCTTCTTTATAGTTATACCAATCATGATCGGAGGCTTTGGCAACTGACTTATCCCCCTAATGATTGGAGCTCCCGATATAGCATTTCCACGAATAAACAACATGAGCTTCTGATTGCTCCCACCCTCTTTCTTACTTCTCCTTGCCTCTTCAGGAGTTGAAGCTGGTGCAGGAACGGGGTGAACAGTTTATCCACCCCTCTCTGGGAACCTCGCCCATGCAGGTGCTTCGGTAGACCTAACAATCTTTTCACTCCATCTTGCTGGTATCTCATCAATTCTGGGGGCAATCAACTTCATTACCACAATTATTAACATGAAACCTCCCGCTATTTCTCAGTACCAAACACCCCTTTTCGTCTGATCTGTGCTCATCACTGCAGTCCTTCTCCTCCTATCCCTGCCCGTCCTTGCAGCCGGAATCACTATGCTTTTAACAGACCGAAACTTAAACACCACTTTCTTTGACCCAGCAGGGGGTGGGGACCCAATTCTTTACCAACACTTATTTTGATTCTTTGGCCACCCTGAAGTTTATATTCTTATTCTTCCAGGCTTCGGAATAATCTCGCACATTGTTGCATATTACTCTGGAAAAAAGGAACCTTTTGGCTACATGGGTATGGTATGGGCAATGATGGCCATTGGCCTTCTAGGGTTTATTGTCTGAGCACATCACATGTTTACAGTAGGGATAGACGTGGACACACGAGCCTAT
158
Scorpaenopsis diabolus ACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCTGCAGTT---------GGTGGAGCCAAAAAAGA CACCAGTAAGGGGACACTGGAGGATCAAATCATCCAGGCAAACCCTGCGCTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCTCGTTTTGGAAAATTTATCCGAATTCACTTYGGTACGAGTGGCAAGCTGTCGTCTGCTGACATCGAGACGTACCTGCTGGAGAAGTCAAGGTGCACCTTTCAGCTCAAGGCTGAAAGGAACTACCACATCTTCTACCAGATCCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTCGCCTCCATCAATGATGCAGAGGAGCTGATGGCCACCGACAGTGCYTTTGATGTGCTCGGCTTCACTGCAGATGAGAAGATGGGCGTCTATAAACTAACCGGTGCCATCATGCACTACGGCAATATGAAGTTCAAACAGAAACAGCGTGAAGAGCAGGCTGAGCCGGATGGGACGGAGGCAGCTGATAAAACGGCTTACCTAATGGGGCTGAACTCTGCGGACCTCATCAAAGGGCTGTGCCATCCCAGAGTCAAAGTAGGAAATGAATATGTCACCAAAGGCCAAAGTGTGGACCAAGTCTACTACAAGGCTGTGCGCTTTTCTTTCACTGTTATGTCTATTTCTGTCCTGGCAGATGAGGAGGAGGAAGGG------------------GTTACCATCTTCACTGAGCCAAAGCCA AACTCAGAACTGTCCTGTAAGCCCCTCTGCCTGATGTTTGTGGATGAGTCAGATCACGAGACCCTCACAGCCATCCTGGGTCCTATCATTGCAGAGCGCAACACTATGAAAGAGAGCAGGCTCATCCTGTCTGTGGGCGGATTGCCTCGCTCCTTCCGCTTCCACTTCAAAGGCACRGGATATGATGAGAAGATGGTGCGTGAGATGGAGGGTCTCGAGGCCTCAGGGTCCACGTACGTCTGCACGCTTTGCGACGCTACTCGGGCGGAGGCCTCTCAAAACATGGTGCTGCACTCCATCACCCGCAGTCACGAGGAGAACTTAGATCGCTATGAGATCTGGAGAACCAATCCCTTCTCGGAGTCGGTAGAGGAGCTGCGGGACAGAGTCAAAGGGGTTTCTGCCAAGCCCTTCATGGAGACGCAGCCCACACTGGATGCATTACATTGTGACATCGGCAATGCCACCGAGTTCTACAAAATCTTCCAGGATGAGATCGGGGAGGTGTAC---------------CAAAAGGCCAACCCCAGCC GGGAGGAGCGGCGCAGTTGGAGGGCAGCCCTAGATAAACAGCTGAGGAAGAAGATGAAGCTGAAACCGGTGATGAGGATGAATGGGAACTACGCTCGCAGGCTAATGACCCAGGAGGCTGTGGAGGCGGTGTGTGAGCTGGTGCCCTCAGAGGAGAGGAGGGAGGCCCTGAGGGAGCTGATCAGGATCTACCTCCAGATGAAAGGCGAAGTCACAGAGAGAGAAGTGGCGTTGGGGATAAATCCGTTCGCGGATGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAC------ATTGGC---TCC------GGA---CAAAC GGCGTTTTCC---TCCCAGGCACCC---GGC---TAC------------GCAGCTGCCGCCCTGGGA------------CACCACCACCACCCGACC------CACGTTGGCTCT---TACTCCACGGCGGCT---------TTCAACTCCACCAGGGACTTTCTCTTCAGAAATCGGGGTTTCGGGGACGCCACC---GGGGC G---CAGCACAGTTTGTTCGCCTCC------------GGAAGTTTCGCA---GGGCCACATGGACACT CAGATGCAGCG---GGGCACCTGCTCTTCCCAGGGCTCCACGAGCAAGCGGCGAGCCAT------GCG TCTTCCAACGTGGTCAAC---AGCCAAATGCGGCTG---GGCTTC---TCCGGGGACATGTACGGACG GGCCGAC------CAGTACGGCCACGTTACGAGCCCCCGG------TCCGAC---CACTATGCTTCGA CCCAGCTGCACGGCTATGGCCCC---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCAGGGGCCTTCTTTCGATACATGAGGCAGCCGATCAAACAAGAGCTCATCTGCAAGTGGATCGAGCCGGAGCAGCTGACGAACCCCAAAAAGTCGTGCAACAAAACTTTTAGCACGATGCACGAGCTGGTGACCCATCTGACGGTGGAGCACGTTGGGGGACCGGAGCAGACCAACCACATCTGCTTCTGGGAGGAATGCGCCAGAGAAGGAAAGCCATTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTTCACACCGGAGAGATGGTCGGCACCGCTCTAAGCCTTCTCATTCGAGCTGAGCTTAGCCAACCCGGAGCTCTTCTGGGCGACGACCAGATCTATAACGTAATCGTTACGGCACACGCATTTGTAATAATTTTCTTTATAGTAATGCCAATCATGATTGGAGGCTTCGGAAATTGACTTATTCCTCTAATGATCGGMGCCCCCGACATGGCATTCCCTCGAATAAACAATATAAGCTTCTGACTACTCCCTCCTTCCTTTCTACTCCTCCTGGCTTCCTCAGGGGTAGAAGCCGGAGCTGGRACAGGATGAACTGTCTACCCCCCCTTAGCAGGAAACTTAGCCCACGCAGGAGCTTCCGTTGATCTAACCATCTTCTCACTTCATCTAGCAGGGATCTCCTCAATTCTAGGGGCCATCAACTTCATCACAACAATTATTAACATGAAACCTCCAGCCATCTCTCAATACCAAACACCTCTRTTTGTTTGAGCTGTTCTAATTACGGCTGTCCTTCTTCTCCTATCCCTTCCTGTACTTGCTGCYGGCATCACCATGCTTCTAACTGACCGAAACCTAAACACCACCTTCTTTGACCCAGCGGGAGGTGGAGACCCMATCCTCTATCAACATCTGTTCTGATTCTTCGGCCACCCAGAAGTATACATTCTTATCCTCCCCGGVTTCGGCATGATTTCCCACATCGTTGCATACTACTCCGGTAAAAAAGAACCCTTCGGCTACATAGGAATGGTTTGAGCTATGATGGCAATCGGCCTTCTAGGCTTTATCGTATGAGCTCACCACATGTTTACAGTTGGAATGGACGTAGACACACGTGCCTAC
159
Apogon apogonoides ACTAAGAGAGTCATCCAGTACTTTGCAAGCATTGCTGCCGTT------GGTGGTGGAGGCAAAAAAGA CACGAGTAAGGGAACACTAGAGGATCAAATCATCCAAGCAAACCCTGCGTTGGAGGCATTTGGCAATGCCAAAACAGTAAGAAATGACAACTCATCTCGTTTTGGAAAATTCATCCGTATTCATTTCGGAACAAGTGGCAAGTTGTCATCAGCTGACATTGAGACTTACTTGCTGGAGAAGTCACGTGTCACCTTTCAGCTAAAATCTGAGAGGAATTATCATATCTTCTTCCAGATCCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGTTGCTGATTACCAACAACCCATATGACTACTCCTACATCTCTCAAGGAGAGGTGACAGTTGCCTCAATCAATGACTCGGAGGAGCTAATGGCCACCGACAGTGCCTTTGATGTGCTTGGCTTCACATCAGAGGAGAAGACGGGTGTGTACAAACTGACCGGTGCCATCATGCACTATGGAAACATGAAGTTCAAACAGAAGCAGCGTGAAGAGCAGGCCGAGCCTGACGGGACAGAGGCGGCTGATAAATCAGCTTACCTAATGGGACTGAACTCTGCTGACCTCATCAAAGGGCTGTGCCACCCCAGGGTCAAAGTAGGAAATGAATATGTCACCAAAGGTCAGAGTGTGGACCAGGTCTACTACAAGGCTGTTCGTTTCTCTTTCACGATTATGTCTGTGTCTGTCAAGGCAGAAGGAGAAGAGGAG---------------------GTTACCATCTTCACAGAGCCGAAGCCA AACTCAGAACTGTCTTGTAAGCCCCTCTGCCTCACATTTGTGGATGAATCCGACCACGAGACACTCACAGCTGTCTTGGGGCCGATAGTTGCAGAGCGCAGTGCTATGAAAGAGAGCAGACTCATCGTATCCATAGGCGGCCTCCCTCGATCCTTCCGCTTTCACTTCCGAGGCACAGGATATGATGAGAAGATGGTCCGTGAGATGGAGGGCCTTGAGGCTTCGGGTTCCTCTTACGTCTGCACGCTGTGTGACACCAGTCGAGCAGAGGCCTCTCAGAATATGGTGCTGCACTCCATCACCCGCTGTCATGATGAAAACCTAGAACGCTATGAAATTTGGAGAACCAACCCTTTTTCAGAGTCTGCAGATGAACTGAGAGACAGAGTCAAAGGGGTCTCCGCTAAACCTTTCATGGAGACCCAGCCTACAATAGATGCATTGCACTGTGACATTGGTAATGCCATTGAGTTCTACAAAATCTTTCAGGATGAAATAGGTGAGGTGTAT---------------CAAAAGGTCAACCCCAGCC GGGAGGAACGACGCAGCTGGAGGGCAGCTTTAGATAAACAGCTGAGGAAGAAGATGAAGCTTAAACCAGTAATGAGGATGAATGGGAACTATGCCCGCAAGCTAATGACCCAGGAGACTGTGGAGGTGGTGTGTGAGTTGGTGCCCTCTGAGGAGAGGAGGGAGGCCCTGAGGGAGCTGATGAGGCTCTACCTGCAGATGAAAGGCGAAGTCACAGAGAGAGAAGTGGCGTTGGGGATAAATCCATTCGCGGATGGGATGGGCGCCTTCAAAATAAACCACAGCTCC------------CACGAT------ATTGGC---TCC------GGA---CAGAC GGCGTTTTCC---TCCCAGGCGCCC---GGT---TAC------------GCAGCAGCCGCCCTGGGA------------CACCACCACCACCCGACC------CACGTTGGCTCT---TACTCCACAGCGGCT---------TTCAACTCCACCAGGGACTTTCTGTTCAGAAATCGGGGTTTCGGGGACGCCACC---GGAGC T---CAGCACAGTTTGTTCGCCTCC------------GGAAGTTTCGCA---GGGCCACATGGACACT CAGATGCAGCG---GGGCACCTGCTCTTCCCGGGGCTCCACGAGCAAGCGGCGAGCCAC------GCG TCTTCCAACGTGGTCAAC---AGCCAGATGCGGCTG---GGCTTC---TCGGGGGACATGTACGGACG AGCCGAC------CAGTATGGCCACGTTACGAGCCCACGC------TCCGAC---CACTACGCCTCGA CCCAGCTCCACGGCTACGGCCCC---ATGAACATGAATATGGCCGCG------CACCAC---GGA---GCAGGGGCCTTCTTTCGATACATGAGGCAGCCCATCAAACAAGAGCTCATCTGCAAGTGGATCGAACCGGAGCAGTTGACAAATCCTAAAAAGTCTTGTAACAAAACTTTTAGCACCATGCACGAGCTGGTGACCCATCTGACGGTGGAGCATGTGGGGGGACCAGAGCAGACGAACCACATCTGCTTCTGGGAGGACTGTGCCAGAGAAGGAAAGCCATTCAAAGCCAAATACAAACTTGTAAATCATATCAGAGTACACACCGGAGAAATAGTCGGGACTGCACTTAGCCTGCTTATTCGAGCCGAACTAAGTCAACCTGGGGCCCTCCTCGGCGATGACCAAATTTATAATGTAATCGTTACAGCACATGCATTCGTAATAATTTTCTTTATAGTAATACCAATTATGATCGGAGGCTTTGGAAACTGACTAATCCCCCTAATGATTGGTGCCCCCGACATAGCATTCCCTCGGATAAATAATATGAGCTTCTGGCTTCTCCCTCCCTCTTTCCTTCTTCTCCTTGCCTCCTCTGGTGTAGAAGCCGGAGCTGGGACAGGATGAACTGTGTACCCTCCTCTTGCAGGCAATCTCGCCCATGCAGGAGCTTCCGTTGATTTAACAATTTTTTCTCTGCACCTGGCTGGTGTGTCGTCAATTCTTGGGGCCATCAACTTTATTACTACAATTATTAATATGAAACCCCCTGCTATTACTCAGTACCAAACTCCTCTATTCGTCTGAGCAGTCCTTATTACTGCAGTCCTCCTACTTCTTTCCCTGCCTGTTCTAGCGGCTGGCATTACTATACTCCTTACAGACCGGAATCTAAATACAACCTTCTTTGACCCAGCAGGGGGTGGGGACCCGATCCTTTATCAACATCTGTTCTGATTCTTCGGGCACCCAGAAGTATACATTCTTATTTTACCAGGGTTCGGCATGATTTCTCATATTGTTGCCTACTACGCCGGTAAAAAAGAACCTTTCGGCTATATGGGCATGGTCTGAGCTATGATGGCAATCGGCCTGCTAGGATTTATTGTATGAGCCCACCACATGTTTACAGTTGGAATGGACGTCGACACTCGAGCATAT
160
Appendix 2: Sequence Data for Chapter Three
Chirocentrus dorab AAGGCCGTGCGCTTCTCCTTCACCATCATGTCGGTGTCGGCGCAGGTGGAGGGGGCGGAGGCTGCCGTGGTCATCTTCCAGGAGATGAAGCCCAACTCGGAGCTCTCCTGCAAGCCGCTGTGCCTGATGTTCGTGGACGAGTCGGACCACGAGATGCTGACTGCCGTCTTGGGGCCGCTGGTCGCCGAGCGCGACGCCATGAAGGAGAGCCGTCTCATCCTCTCGCTGGGCGGCCTGCAGCGCTCCTTCCGCTTCCACTTCCGGGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGGCTGGAGGCGTCAGGCTCCACCTACATCTGTACGCTGTGTGACTCCACGCGCGCCGAAGCCTCGCACAACATGGTGCTGCACTCCATTACGCGCAGCCACCAGGAGAACCTGGAGCGCTATGAGATGTGGCGCACCAACCCCTTCTCCGAGTCGGCGGACGAGCTGCGTGACCGCGTTAAAGGCGTGTCCTCCAAACCCTTCATGGAGACGCAGCCCACACTAGACGCGCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGCGAGATGCACGCTCGCGGCGACAACCCGCCTACACGTGAGGAACGACGCAGGTGGCGCACAGCGCTGGACAAGCAGCTGCGCAACGTGATGAAGCTGAAACCAGTGATGCGCATGAACGGCAACTACGCCCGGAAGCTGATGACGACAGAGGCGGCGGAGGCAGTGTGCGAGCTGGTGCCCACGGAGCAGCGTCGGGAAGCGCTGAGGGAGCTCATGGCACTCTACCTGCAGATGAAGCCGGTGTGGCGCAAGACTGTGAACACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCAGCTGCTGGAGGAGCTGCCAGTAAAAAGGATGCTAGTAAGGGGACTCTGGAGGATCAAATCATCCAGGCCAACCCCGCTCTGGAGGCGTTTGGGAATGCCAAAACACTGAGAAACGACAACTCCTCTCGCTTTGGGAAATTCATTCGTATTCACTTTGGAACCAGTGGAAAGCTTTCCTCTGCTGACATTGAGACTTACCTCCTGGAAAAGTCCAGGGTGACCTTTCAGCTTAAGGCTGAGAGGAACTACCACATCTTCTATCAGATCATGTCCAATGAAAAGCCTGAGTTGTTAGACATGTTGTTGATCACCAATAACCCTTATGATTACTCTTATGTCTCTCAAGGAGAGATCGCTGTGGCCTCCATCAACGACTCAGAGGAGCTGATTGCCACCGACAGTGCCTTTGATGTGCTTGGCTTCACTGGTGAAGAGAAAATGGCAGTCTACAAGCTGACTGGTGCCATCATGCACCATGGCAACATGAAATTCAAGCAGAAGCAGAGAGAAGAGCAGGCCGAGCCAGACGGCACAGAGTCTGCTGACAAGTCTGCTTACCTGATGGGATTAAACTCCGCAGACCTCCTCAAAGGACTCTGCCACCCAAGGGTCAAGGTAGGCAATGAGTACGTCACCAAAGGTCAGAATGTAGACCAAGTTTACTATTCCATTGGTGCTTTGGCTCTGGAGAAGAACCTGCACCCGTCCAACTGTCTGGGCATGCTCCTGCTGTCCGACGCCCACCAGTGCACCCAGCTCTCCCAGCTGTCCTGGAGCATGTGCCTGAGCAACTTCCCCGCCATCAGCAAGAGCGAGGAGTTCCTGCAGCTGCCCAAGGACATGCTGGTCCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGCGGCTGGTCTACGAGTCCGCCCTCAACTGGGTCAACTACGACCTGGAGCGCCGCCACTGCCACCTGCCCGAGCTGCTGCGCACCGTGCGCCTGGCGCTGCTTCCCGCCATCTTCCTGATGGAGAACGTCTCCACCGAGGAGCTGATCAACGCCCAGGCCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGGTGCAAGCTGCGCATCCTGCAGAACGACGGCCTGGTCAACAGCCCCTGCGCCCGGCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGCCCCACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCCGACATCCCCAGCCCCCGCAAGGAGTTCAGCGCCTGCGCTATCGGCTGCAAGGTGTACGTGACGGGCGGGCGGGGCTCCGAGAACGGCGTGTCCAAGGACGTGTGGGTGTACGACACGCTGCACGAAGAGTGGTCCAAGGCGCCGCCCATGCTGATCGCCCGCTTCGGGCACGGCTCGGCCGAGCTGCGCCACTGCCTGTACGTGGTGGGCGGGCACACGGCCGCCACGGGCTGCCTGATGGTGGGCACAGCCTTGAGCCTGCTCATTCGAGCCGAATTAAGCCAGCCGGGGGCCCTCCTTGGAGACGATCAGATCTATAACGTCATTGTTACTGCCCATGCATTCGTAATAATCTTTTTTATGGTCATGCCCATCCTCATCGGGGGCTTTGGCAACTGACTCATTCCCCTCATGATTGGGGCACCCGATATGGCGTTCCCCCGCATGAATAACATGAGCTTTTGGCTATTGCCCCCCTCGTTCCTTTTACTGCTTGCCTCATCCGCAGTTGAAGCGGGAGCGGGCACTGGGTGGACGGTCTACCCGCCCCTGGCTGGTAATCTTGCCCACGCGGGCGCCTCAGTCGACTTGACCATTTTCTCACTCCACCTGGCAGGCATCTCGTCTATTCTCGGGGCCATTAATTTCATTACCACGATTATTAACATGAAACCCCCCGCTATTTCACAATACCAAACACCCCTGTTTGTTTGGGCGGTGTTAGTCACTGCAGTGCTCCTCCTTCTCTCTCTGCCCGTACTGGCGGCAGGGATTACCATGCTGCTCACGGACCGAAACTTAAACACAACGTTCTTCGACCCCGCCGGCGGAGGANACCCCATCCTTTACCAACACTTGTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
161
Oncorhynchus keta AAGGCTGTGCGTTTCTCCTTCACCATCATGTCCGTCTCTATTCAAGCTGAGGGAGAAGATGAGGCGATCACCATTTTCCGGGAGCCCAAGCCCAACTCAGAGATGTCCTGCAAGCCGCTATGCCTGATGTTTGTGGACGAGTCGGACCACGAGACTCTCACAGGCGTCCTGGGGCCTGTGGTGGCCGAGAGGAACGCTATGAAGCACAGCCGTCTCATCCTGTCTGTGGGTGGCCTTTCTCGCTCCTTCCGCTTCCACTTCCGGGGCACGGGCTATGATGAGAAGATGGTGCGAGAGATGGAGGGTTTGGAGGCCTCTGGCTCCACTTACATCTGCACGTTGTGTGACTCCACTCGGGCAGAGGCCTCCCAAAACATGACTCTCCACTCTGTCACCCGCAGCCATGACGAGAACCTGGAGCGCTATGAACTTTGGAGGACCAACCCTCATTCTGAGTCAGCTGAAGAGCTGCGAGACCGAGTCAAAGGCGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGACGCCCTGCACTGTGATATCGGCAATGCCACTGAGTTCTACAAGATCTTCCAGGATGAGATAGGGGAGGTCTATCACAAG------GCAAACCCCAGCCGGGAGCAGCGTCGGAGCTGGCGGGCCGCCCTGGACAAGCAGCTGAGGAAGAA GATGAAGCTGAAGCCTGTGATGAGGATGAATGGGAACTATGCACGGAAGCTGATGACCCGGGAGGCAGTGGAGGCAGTGTGTGAGCTGGTGTGCTCAGAGGAGCGTCAGGAAGCCCTGCGGGAGCTGATGGGGCTCTACATCCAGATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCAGCAGTTAGTGGCGTT------AAGAGGGATCCAAGCAAGGGCACCCTGGAAGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGTTTCGGCAAATTCATCCGTATTCACTTTGGGACCAGTGGGAAACTGTCCTCTGCCGACGTAGAGACTTACCTTCTTGAGAAGTCCCGTATCACCTTTCAGCTCAAAGCTGAGAGGAACTACCATATTTTCTTCCAGATATTGTCCAATCAAAAGCCAGAGCTCTTGGACTTGCTGTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAACTGATGGCCACTGATAGTGCCTTCGATGTGCTCGGCTTTACTGCAGAGGAAAAACAGGGGGTCTACAAGTTGACAGGTGCCATAATGCACTACGGCAACATGAGGTTCAAACAAAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGATCAACTCTGCAGATCTGATTAAAGGACTTTGTCATCCCAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAAGGTGTAGATCAGGTCTACTATNNNNNNNNNNNNNNNNNNCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGTACGAAGCTGTCTGAGCTCTCCTGGAGCATGTGCCTCAGCAACTTTCCCACCATCTGCAAGACAGAGGATTTCCTSCAGCTTCCCAAAGACATGGTGGTGCAGCTCCTGTCCCACGAGGAACTGGAGACAGAGGATGAGAGGCTGGTCTACGAGGCTGCCCTCAACTGGGTCAACTACGATTTGGAGAGGAGGCACTGCAACCTGCCTGARCTGCTGCAGACCGTCCGCCTGGCTCTRCTCCCTGCCATCTTCCTCATGGAGAACGTGTCCACAGAGGAGCTGATCAATGACCAGTTGAAGAGCAAGGAGCTGGTGGACGAGGCTATCCACTGCAAGCTGAAGATCCTTCAGAACGATGGTGTGGTGAAMAGCCCCTGCGCCCGGCCCAGGAAGACCAGTCACGCCCTGTTCCTGCTGGGAGGACAGACCTTTATGTGTGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCGAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGTAATGTCTATGTGACTGGCGGGAGGGGCTCAGAGAACGGTGTGTCCAAAGACGTGTGGGTCTATGACACCTTGCACGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCTCGCTTTGGCCACGGCTCGGCCGAGCTGAAACACTGCCTGTACGTAGTTGGAGGACACACGGCCGGCACTGGCTGCCTCATAGTCGGCACCGCCCTAAGCCTACTGATTCGGGCAGAACTAAGCCAGCCAGGCGCTCTTCTAGGAGATGACCAGATCTATAACGTAATCGTCACAGCCCATGCCTTCGTTATGATTTTCTTTATAGTCATACCAATTATAATCGGAGGATTTGGAAACTGATTAATCCCTCTAATAATCGGAGCCCCCGATATGGCATTCCCACGAATAAATAACATAAGCTTCTGACTCCTCCCCCCCTCGTTTCTCCTCCTCCTATCTTCATCTGGAGTTGAAGCCGGCGCTGGTACCGGATGAACAGTTTATCCCCCTCTGGCCGGAAACCTTGCCCACGCGGGAGCCTCTGTTGACTTAACCATCTTCTCCCTTCATTTAGCTGGAATTTCCTCAATTTTAGGAGCCATTAATTTTATCACAACCATTATTAATATGAAGCCCCCAGCCATCTCTCAGTACCAGACCCCACTTTTTGTTTGAGCTGTGCTAATCACTGCTGTACTTCTACTACTTTCCCTACCCGTCCTAGCAGCAGGCATTACTATGTTACTTACTGACCGAAATTTAAACACCACTTTCTTTGACCCGGCAGGCGGGGGAGATCCGATTTTATACCAACACCTCTTTTGGTTCTTCGGACACCCAGAGGTATATATTCTTATCCTCCCAGGCTTCGGTATAATTTCACATATCGTTGCATACTACTCCGGCAAAAAAGAACCATTCGGGTATATAGGAATAGTTTGAGCTATAATAGCCATCGGGTTACTGGGGTTTATCGTTTGAGCCCACCACATGTTCACTGTCGGAATAGACGTGGACACTCGTGCCTAC
162
Argentina striata AAGGCTGTGCGCTTCTCCTTTACCATCATGTCTGTCTCGGTCCAGGCTGAAGGAGAGGAGGAGGTGGTCACCATCTTCCGGGAGCCCAAGCCGAACTCTGAACTGTCCTGTAAGCCACTGTGCCTGATGCTTGTGGACGAGTCAGACCACGAGACACTCACGGCAGTCCTAGGCCCTGTGGTGGCCGAACGGAACGCTATGAAGCACAGCCGGCTCATTCTGTCCCTGGGTGGGCTCCCTCGCTCCTTCCGCTTCCACTTCAGAGGAACGGGTTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCTGGCTCCACCTACATTTGCACCTTGTGTGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCATGATGAGAACCTGGAGCGCTATGAGTTGTGGAGGACCAACCCCTTCTCCGAGTCCGCAGAAGAGCTGCGGGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGATGCCCTGCACTGCGACATCGGCAACGCCACTGAGTTTTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTACCGCAGC------CCCAACCCCAGACGAGAGGAGCGGCGGATGTGGAGGGCTGCTCTGGACAAGCAGCTGAGGAAGAA GATGAAGTTGAGGCCGGTGATGCGTATGAACGGGAACTACGCACGGCGGCTGATGACCGAGGAGGCAATAGAGGTAGTGTGTGAGCTAGTGCCGTCAGAGGAGAGGCGAGAGGGCCTAAGGGAGCTGATGGGGCTCTACNNNNNNNNNNNNNNNNNNNNNNNNAAGACTGTCAACACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCGGCAGTTAGTGGTGCT------AAGAGGGATCCAAGCAAGGGTACCCTAGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACATTAAGAAATGATAATTCATCACGTTTTGGCAAATTCATCCGTATTCATTTCGGACAAAGTGGCAAATTGTCCTCTGCTGACATAGAGACTTATCTGCTTGAGAAGTCACGTTGCACCTTTCAGCTGAAAGCGGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATGAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAACTGATTGCCACTGACAGTGCCTTTGATGTGCTGGGCTTTACTGCAGAAGAGAAAATGGGGGTCTACAAGTTGACAGGTGCCATCATGCACTATGGCAACATGAAGTTCAAGAACAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCAGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCAGCAGATCTTATTAAAGGACTGTGCCATCCAAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAGAGTGTAGATCAAGTCTACTACTCTCTNNNNNNNNNNNNNNNNNNNNNNAACCTGCATCCGTCCAACTGCCTGGGGATGCTGCTGCTGTCGGAYGCCCACCCATGCACCAAGCTCTCCGAGCTCTCCTGGGGCATGTGCCTCAGYAACTTCCCTGCCATCTGCAAGACGGAGGACTTCTTGCAGCTGCCCAAAGACATGGYGGTCCAGCTYCTGTCYCACGAGGAGCTGGAGACTGACGACGAGAGGCTGGTGTATGAGACYGCTCTCAACTGGGTTAACTATGACCTGGAGAGGAGGCATTGCCACCTGTCGGAGATGTTGAGGACGGTCCGCCTGGCCCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACSGAGGAGCTGATYAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGACGAGGCCRTCCGCTGCAAGCTGAAGATCCTGCAGAACGAMGGCGTGGTCAACAGCCCCTTCGCCCGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGTTGGGCGGCTCGACTTTCATGTGTGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCTGACATCCCGAGCCCCAGGAAGGAGTTCAGCGCCTGTGCCATCGGATGTAAGGTCTACGTCACTGGGGGAAGGGGCTCTGAGAACGGCGTGTCCAAAGATGTGTGGGTCTATGACACCTYCCAGGAGGAGTGGTCCAAGGCAGCACCCATGATCATCGCCCGGTTTGGTCACTGCTCAGCAGAGCTGAAACACTGCCTCTACGTGGTGGGGGGTCACACAGCTGCCACAGGCTGTCTGATGGTCGGCACAGCTTTAAGCCTCCTAATCCGGGCCGAGCTCAGCCAGCCCGGGGCCCTCTTAGGGGATGACCAGATTTACAATGTTATTGTGACAGCACATGCCTTCGTCATAATCTTCTTTATAGTAATGCCAATCATAATCGGTGGCTTTGGAAACTGATTAATCCCCTTAATAATCGGAGCCCCCGATATAGCATTCCCCCGAATGAATAATATAAGCTTCTGGCTCCTCCCTCCCTCCTTCCTCCTCCTCTTAGCTTCCTCTGGGGTTGAAGCTGGGGCTGGAACAGGTTGAACAGTATACCCTCCCTTGGCAGGAAACCTTGCCCATGCAGGGGCTTCCGTTGATCTAACTATCTTTTCCCTTCACCTTGCTGGCATCTCCTCAATCCTTGGAGCAATTAACTTCATTACAACCATCATTAATATGAAGCCCCCCGCCATCTCCCAATACCAAACCCCCCTGTTTGTCTGGGCAGTTTTAATTACAGCAGTTCTCCTCCTCCTTTCACTCCCTGTCCTGGCCGCAGGTATTACTATGCTACTCACGGATCGGAATTTAAACACCACCTTCTTTGACCCCGCCGGAGGGGGAGACCCAATCTTATACCAACACTTGTTCTGATTCTTCGGCCACCCTGAAGTTTATATTCTCATTCTGCCGGGCTTCGGCATAATCTCCCATATTGTTGCTTACTACTCAGGAAAAAAAGAACCTTTTGGTTATATAGGAATAGTCTGAGCAATAATAGCTATTGGACTTCTAGGCTTTATCGTCTGAGCTCACCACATATTTACGGTGGGAATAGATGTAGACACTCGAGCCTAC
163
Nansenia longicauda AAAGCCGTGCGCTTCTCCATCACCATCATGTCTGTCTCTGTCCAGGCTGAAGGAGAGGAGGAGGCGGTCACCGTCTTCCGGGAGCCCAAGCCCAACTCCGAACTGACCTGTAAGCCGCTGTGCTTGATGCTCGTGGACGAGTCGGACCACGAGACGCTCACGGCGGTCCTGGGGCCTTTGGTGGCCGAGCGGAACGCCATGAAGCACAGCCGGCTCATCCTGTCCCTGGGCGGGCTCCCTCGCTCCATCCGCTTCCACTTCAGAGGGACGGGTTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCCGGCTCCACCTATATCTGCACCTTGTGTGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGACGAGAACCTGGAGCGCTACGAGTTGTGGAGGACCAACCCCTTCTCTGAGTCCGCAGAGAAACTGCGAGACCGGGTCAAAGGCGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACGCTGGACGCCCTGCACTGCGACATTGGCAATGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGTACCGCTGC------CCCAACCCCAGACGAGAGGAGCGTCGGGGCTGGAGAGCCACGTTGGACAAGCAGCTGAGGAAGAA GATGAAGCTGAGGCCAGTGATGCGAATGAACGGGAACTATGCGCGGCGTCTGATGACCCGGGAGGCGATAGAGGTGGTGTGTGAGCTGGTGCCATCAGAGGAGAGGCGAGAGGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGCCGGTGTGGCGGAAGACTGTCAACACCAAGAGAGTTATCCAATATTTTGCCAGCATTGCGGCAGCTGCTGGGCTT------AAGAGGGATCCAAGCAAGGGTACCCTAGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGATAATTCATCACGTTTTGGCAAATTCATTCGTATTCATTTCGGACAAAGTGGCAAATTGTCCTCTGCTGACATAGAGACGTATCTGCTTGAGAAGTCACGTTGCACCTTTCAGCTGAAATCGGAGAGAAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTGTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAGTTGATTGCCACTGACAGTGCTTTTGATGTGCTGGGCTTTACTGCAGAGGAGAAAATGGCGGTCTACAAATTGACAGGTGCCATAATGCACTATGGCAACATGAAGTTCAAGAACAAGCAACGGGAGGAGCAGGCAGAGCCTGATGGTACAGAGGCTGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCTGCAGATCTTATTAAAGGATTGTGCCATCCGAGAGTCAAGGTTGGCAATGAGTATGTCACCAAAGGTCAGAGTGTCGATCAAGTCTACTATTCTCTTGGTGCACTGGCTNNNNNNNNNNNNCTGCATCCGTCCACTGTCCTGGGCATGCTGCTGTTGTCAGATGCCCACCCGTGCACCAAGCTCTCTGAGCTCTCTTGGGGCATGTGTCTCAGCAACTTCCCTGCAATCTGCAAGACAGAGGACTTCCTGCAACTGCCCAAGGACATGGTGGTTCAGCTCCTATCCCACGAGGAGCTGGAGACTGAGGACGAGAGGCTGGTGTACGAGGCTGCACTCAACTGGGTCAACTACGACCTGGAGAGGAGGCATTGCCACCTGCCAGAGATGCTGAGGACCGTCCGCCTGGCTCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACTGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGACGGCGTGGTCAACAGCCTGTGCGCCCGGCCCAGGAAGACCAGCCATGCCCTCTTCCTGCTAGGCGGCCAGACCTTCATGTGTGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAAGCAGACATCCCCAGCCCCAGGAAGGAATTCAGCGCCTGTGCCATCGGATGTAAGGTCTATGTCACAGGGGGGAGAGGCTCGGAGAACGGGGTGTCCAAAGATGTGTGGGTCTACGACACCTTCCAGGAGGAGTGGTCCAAGGCGGCACCCATGATCATCGCCCGGTTCGGTCACGGCTCAGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGGCACACAGCCGCCACAGGCTGTCTGATGGTTGGGACGGCCTTAAGCCTTTTAATCCGGGCCGAGCTAAGCCAACCGGGAGCCCTCCTGGGGGACGACCAAATCTATAATGTTATCGTAACAGCACATGCTTTCGTTATAATCTTTTTTATAGTGATGCCAATCATGATCGGCGGCTTTGGAAACTGATTAATTCCCCTAATGATCGGGGCCCCTGACATAGCCTTTCCCCGAATAAATAATATGAGCTTCTGACTTCTACCCCCCTCTTTCCTTCTTCTCCTAGCTTCTTCTGGGGTTGAAGCCGGAGCCGGGACAGGTTGAACAGTATACCCCCCTCTAGCAGGAAACCTTGCCCACGCAGGGGCCTCCGTAGACCTGACCATCTTCTCCCTCCACCTCGCCGGTATCTCTTCGATCCTCGGGGCCATTAACTTCATTACAACAATTATCAACATGAAACCCCCAGCCATCTCCCAGTACCAGACTCCCCTATTCGTCTGAGCAGTACTCATTACAGCAGTTCTTCTGCTCCTTTCTCTCCCCGTACTAGCTGCAGGTATTACCATGCTATTAACAGACCGAAACTTAAACACCACTTTCTTTGACCCCGCAGGGGGAGGGGACCCCATCCTCTACCAACATCTGTTCTGGTTCTTTGGTCACCCTGAAGTCTATATTTTAATCCTCCCCGGCTTCGGTATAATCTCCCACATTGTTGCTTACTACTCCGGTAAAAAAGAACCTTTCGGCTACATAGGCATGGTTTGAGCAATGATGGCTATCGGGCTCCTAGGCTTTATTGTCTGAGCCCACCATATGTTCACCGTCGGAATGGACGTAGACACTCGTGCCTAC
164
Bathylagus longirostris AAGGCGGTGCGCTTCTCCATCACCGTCATGTCCGTCTCCGTCCAGGCCGAAGGAGAGGAGGAGGCGGTCACCATCTTCCGGGAGTCCAAGCCCAACTCTGAGCTGACCTGTAAGCCGCTGTGCTTGATGCTTGTGGATGAGTCGGACCACGAGACACTCACGGCAGTCCTGGGGCCCCTGGTGGCCGAGCGCAACGCCATGAAGCACAGCCGGCTCATCCTGTCCCTGGGCGGCCTCCCGCGCTCCATCCGCTTCCTCTTCAGAGGAACGGGTTATGACGAGAAGATGGTGCGTGAGATGGAGGGTCTGGAGGCCTCTGGCTCCACCTATATCTGCACCTTGTGCGACTCCACCAGGGCAGAGGCCTCCCACAACATGGTGCTCCACTCCATCACGCGCAGCCACGACGAAAACCTGGAGCGCTACGAGCTGTGGAGGACCAACCCCTTCTCGGAGTCCGCGGAGGAGCTGCGAGACCGGGTCAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACGCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTACCGCAGG------CCCAACCCCAGCCGGGAGGAGCGGCGGAGTTGGAGGGCCACCCTGGACAAGCAGCTGAGGAGGCA GATGAAGCTGAGGCCGGTGATGCGGATGAACGGGAACTACGCCCGGCGGCTGATGACGCGGGAGGCGGTGGAGGCGGTGTGTGAGCTGGTGCCGTCGGAGGAGAGGCGAGATGCCCTGAGGGAGCTGATGGGCCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACTGTCANCACCAAGAGAGATATCCAGTATTTTGCCAGCATTGCGGCAGCTGGAGGGGCT------AAGAGGGATGCAAGCAAGGGCACCCTAGAGGATCAAATCA TCCAGGCTAACCCTGCACTCGAGGCTTTTGGTAACGCCAAAACAGTGAGGAATGATAATTCATCACGTTTTGGCAAATTCATCCGTATTCATTTTGGACAAAGCGGCAAATTGTCCTCTGCTGACATAGAGACTTATCTGCTTGAGAAGTCACGTGTTACCTTTCAGCTGAAATCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACCTGCTGTTGATCACCAACAATCCTTATGACTATGCCTACATCTCCCAAGGAGAGGTGACAGTAGCATCCATCAATGATTCTGAGGAGCTGATGGCCACTGACAGTGCTTTTGATGTGCTGGGCTTTACTGCAGAGGAGAAAATGTCAGTCTACAAACTGACAGGTGCCATAATGCACTATGGCAACATGAAGTTCAAGAACAAGCAGCGGGAGGAGCAGGCAGAGCCTGACGGTACAGAGGCTGCTGACAAGTCAGCTTATCTAATGGGACTGAACTCTGCTGATCTTACTANNNGACTATGCCATCCCAGAGTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGCGAAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCGGATGCCCACACCTGCACCAAGCTCTCGGAGCTCTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTGCAGCTGCCCAAGGACATGGTGGTGCAGCTCCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTGTACGAGGCCGCGCTCAGCTGGGTCAACTACGACCTGGAGAGGAGGCACTGCCAACTGCCCGAGATGCTGAGGACGGTCCGCCTGGCCCTGCTGCCCGCCATCTTCCTCATGGAGAATGTGTCGACGGAGGAGCTGATCAACGCGCAGGTCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGACGGCGTGGTGAACAGCCTGTGCGCCCGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGGCAGACCTTCATGTGTGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGGGGGAGAGGCTCGGAGAACGGCGTGTCCAAAGACGTGTGGGTCTACGACACCATCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCCCGCTTCGGCCACGGCTCGGCAGAGCTGAAGCACTGCCTCTACGTGGTGGGCGGGCACACGGCTGCCACGGGCNNNNNNATAGTGGGCACAGCCTTAAGCCTCTTAATCCGGGCGGAACTTAGCCAACCGGGAGCCCTTCTAGGTGACGACCAGATCTACAATGTAATTGTAACAGCACATGCATTCGTAATAATCTTCTTTATAGTCATGCCAATCATGATTGGCGGCTTCGGAAACTGATTAATCCCTCTTATGATCGGGGCCCCTGACATAGCCTTCCCACGAATAAACAACATAAGCTTCTGACTCCTTCCCCCTTCCTTCCTTCTCCTTCTGGCCTCCTCTGGTGTTGAAGCGGGAGCAGGGACAGGATGAACTGTCTACCCACCCCTAGCAGGCAACCTCGCTCACGCAGGGGCCTCTGTAGACTTAACTATCTTCTCCCTCCACCTCGCCGGAATCTCCTCAATTCTAGGGGCAATCAACTTCATCACAACAATTATCAACATAAAACCCCCGGCCATCTCCCAGTATCAGACCCCTCTMTTCGTCTGAGCTGTCCTAATCACAGCCGTCCTTCTCCTTCTCTCCCTTCCCGTCTTAGCCGCAGGAATTACTATACTTCTTACAGACCGCAACCTGAATACCACCTTCTTCGACCCTGCCGGAGGGGGTGACCCCATCCTCTACCAACACCTATTCTGGTTCTTCGGCCACCCTGAGGTCTATATCTTGATCCTCCCTGGCTTCGGCATGATTTCCCATATTGTTGCCTACTATTCCGGCAAAAAAGAACCCTTCGGCTACATAGGCATGGTCTGAGCAATGATGGCCATTGGTCTTCTGGGCTTCATTGTCTGAGCCCACCACATATTTACTGTCGGCATGGACGTGGACACTCGTGCCTAC
165
Mallotus villosus AAGGCCGTCCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCTGGCCGAGGGGGAGGAGGAAGCGGTCACCGTCTTCAGAGAGCCCAAGCCCAATTCCGAGATGTCCTGCAAACCTCTCTGTCTGATGTTTGTGGACGAGTCGGACCACGAGACCCTGACGGCCATCTTGGGGCCTGTGGTGGCCGAGAGGAAGGCCATGAAGAACAGCCGCCTCATCCTKCCCATGGGCGGCCTCCCTCGCTCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGACGAAAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCTTCAGGCTCCACCTACGTCTGCACCCTCTGCGACGCCACCAGAGCTGAGGCCTCCCGAAACATGGTGCTGCACTCAGTCACCCGCAGCCACGACGAGAACCTGGACCGTTACGAGTTGTGGAGGACCAACCCGTACGGCGAATCGGCGGACGAGCTGCGAGACCGGGTGAAAGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACAATGGACGCGCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCATTGCAGG------CCCAACCCGAGCAGGGAGGAGCGTCGGAGCTGGAGGGCGGCTCTGGACAAGCAGCTCAGGAAGAA GATGAAGCTGAAGCCCGTGATGAGGATGAACGGCAACTTCGCCCGGCGACTGATGACGGCGGAGGCGGTGGAGGCRGTGTGCGAGCTGGTGCCGTCGCAGCAGCGGAGCGAAGCCCTCAGGGAGCTGATGAACCTCTACATCCAGATGAAGNNNNNNNNNNNNNNNACTGTCAACACCAAGAGAGTTATTCAGTACTTGGCCAGCATTGCAGCAGTTCCCGGAGCC------AAGAGAGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCTTGGAGGCTTTTGGTAATGCCAAAACATTGAGGAATGACAACTCGTCACGCTTTGGAAAATTCATCAGGATTCACTTCGGAACCAATGGCAAGCTGTCCTCAGCTGACATAGAGACTTATCTTCTGGAAAAGTCACGTGTCACCTTCCAACTCAAGTCAGAAAGGAATTACCATATCTTCTTTCAGATCTTGTCTGAAAAAAAGCCAGAGCTGTTGGACATGCTTCTGATCACCAACAACCCATATGACTACTCGTACATCTCCCAAGGAGAGGTAACAGTAGCATCTATCAATGATGCTGATGAGTTGATGGCCACCGACAGTGCCTTTGATATCCTTGGCTTTACTCAAGAGGAGAAAAACGGGGTCTACAAGTTGACTGGAGCTATCATGCATTTTGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGGCTGATGGCACTGAGGCGGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTATGTCACCAAAGGGCAGGGCGTAGATCAAGTCTACTACTCTCTTGGNNNNNNNNNN????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTAGGGACGGCTTTAAGCCTCCTTATCCGAGCCGAGCTGAGCCAACCTGGCGCTCTTCTGGGGGACGACCAGATTTATAATGTTATCGTCACCGCACACGCTTTTGTTATAATCTTTTTTATAGTAATACCCATCAWGATCGGAGGGTTCGGCAACTGGCTAATTCCTCTTATGATCGGGGCCCCGGACATGGCGTTCCCACGCATAAATAACATGAGTTTCTGACTTTTACCTCCCTCTTTCCTTCTCCTCTTAGCCTCCTCCGGGGTAGAAGCAGGAGCCGGTACCGGCTGAACAGTTTACCCGCCACTTGCTGGCAATCTCGCTCACGCGGGAGCTTCCGTAGATTTAACCATCTTTTCCCTCCACCTTGCGGGTATCTCCTCTATTCTAGGGGCCATTAATTTTATTACAACTATTATTAACATGAAACCTCCTGCTATTTCTCAGTACCAAACTCCTTTATTTGTTTGAGCTGTGCTAATTACAGCCGTTCTTCTTCTACTGTCCCTTCCTGTCTTAGCCGCTGGAATTACAATGCTTCTGACAGACCGAAATCTAAACACCACTTTCTTTGACCCTGCTGGGGGAGGAGATCCTATTCTATATCAGCATTTATTYTGATTCTTCGGGCACCCCGAAGTCTACATCCTGATTCTCCCCGGATTTGGGATAATCTCACATATTGTAGCCTACTACTCCGGTAAAAAAGAACCATTCGGGTACATGGGCATGGTYTGAGCTATGATGGMTATTGGCCTTCTCGGATTTATTGTTTGAGCCCATCATATGTTTACAGTAGGCATGGACGTTGACACTCGAGCTTAC
166
Galaxias maculatus AAGGCTGTCCGTTTCTCATTCACAGTCATGTCTGTCTCCATCCAGGCTGAAGGGCAGGAGGAAACTGTCACCATATTCAGGGAGCCAAAACCCAACTCTGAGCTGTCCTGCAAACCCCTCTGTTTGATGTTTGTGGATGAGTCTGACCACGAGACTCTGACGGCCATCCTGGGGCCTGTGGTGGCTGAGAGGAATGCCATGAAAAATAGTCGCCTCATCCTGTCCCTGGGTGGTCTTCCTCGGTTCTTCCGCTTCCATTTCAGGGGCACAGGCTACGATGAGAAGATGGTACGTGAGATGGAGGGCATGGAGGCCTCGGGCTCCACTTATGTCTGCACACTGTGTGACTCCACCAGAGCTGAGGCCTCCAAGAACATGGTGCTCCACTCCATAACACGATGCCATGATGAGAACCTGGACCGTTATGAGACCTGGAGAACCAACCCCTACTCCGAGTCTGCAGAGGAGCTGAGAGACCGGGTCAAAGGTGTCTCTGCCAAGCCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGCGACATCGGGAACGCTACAGAGTTTTACAAGATCTTCCAGGATGAGATCGGGGAGGTGCACTGCAAA------CCCGATCCCAGCAAGGAGGAGCGGCGGAGCTGGAGGGCAGCTCTGGATAAGCTATTGAGGAAGAA AATGAAGCTTAAGCCTGTGATGAGGATGAACGGGAACTATGGCCGGCGGCTGATGACCATGGAGGCGGTGGAGGTGGTGTGTGAGCTGGTGCCATCAGAGGAGCGTAGGGAGGCCCTCCGGGAGCTGATGGGTCTCTACCTCCAGATGAAGNNNNNNNNNNNNNNNNNNNNNNNNACCAGGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTCCCGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACGGCGAGAAATGACAACTCGTCACGCTTTGRCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATTCTGAGGAATTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCATTACGGTAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTTGGCACAGCTCTAAGCCTGTTAATTCGGGCAGAGCTAAGCCAGCCAGGTGCTCTTTTAGGTGACGACCAGATTTATAATGTAATCGTCACAGCACACGCCTTCGTAATAATTTTCTTTATAGTAATACCTATCATGATTGGAGGCTTTGGAAACTGGCTAATTCCACTTATGATTGGGGCTCCGGATATAGCATTTCCCCGTATGAACAACATAAGCTTTTGGCTACTCCCCCCCTCTTTTCTTCTTCTTTTAGCTTCCTCTGGCGTTGAAGCCGGGGCTGGTACGGGCTGAACTGTTTACCCCCCTTTAGCAGGTAATCTTGCTCATGCTGGAGCTTCCGTAGACCTGACTATCTTTTCCCTACACTTAGCAGGGATCTCTTCAATCTTAGGTGCAATTAACTTCATTACCACAATTATTAACATGAAACCACCTGCTATCTCCCAATATCAGACCCCTTTATTTGTATGGGCAGTCTTAATTACTGCCGTCCTTCTTCTTCTTTCTTTACCCGTTCTTGCTGCGGGAATTACGATACTATTGACGGACCGGAACCTAAATACGACTTTCTTCGACCCTGCCGGTGGGGGAGATCCTATTCTGTACCAGCATTTGTTTTGGTTCTTTGGCCACCCCGAAGTTTACATTCTTATTCTTCCGGGATTCGGAATAATCTCTCATATCGTTGCATACTACTCTGGAAAGAAAGAACCTTTTGGTTATATGGGAATAGTATGAGCTATGATAGCGATTGGTCTTCTAGGGTTTATCGTCTGGGCCCACCATATGTTTACTGTGGGAATAGATGTAGACACCCGAGCATAC
167
Thaleichthys pacificus AAGGCCGTCCGCTTCTCCATCACCGTCATGTCCGTCTCCGTCCTGGCCGAGGGGGAGGAGGAAGCGGTCACCGTCTTCAGAGAGCAGAAGCCCAACTCGGAGATGTCCTGCAAACCTCTCTGCCTGATGTTTGTGGACGAGTCGGACCACGAGACCCTGACGGCCATCTTGGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATMCTGGCCATGGGCGGCCTCCCTCGCTCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCTTCAGGCTCCACCTACGTCTGCACCCTCTGCGACGCCACCAGAGCTGAGGCCTCCAAAAACATGGTGCTCCACTCAGTCACCCGCAGCCACGACGAGAACCTGGACCGCTACGAGCTGTGGAGGACCAACCCCTACTCTGAATCGGCGGACGAGCTGCGAGACCGGGTGAAAGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACACTGGACGCRCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCATTGCAGG------CCCAACCCGAGCAGGGAGGAGCGTCGGAGCTGGAGGGCGGCTCTGGACAAGCAGCTCAGGAAGAA GATGAAGCTGAAGCCCGTGATGAGGATGAACGGAAACTTTGCCCGGCGACTGATGACGGCGGAGGCGGTGGAGGTGGTGTGCGAGCTGGTGCCGTCGCAGCAGCGGAGCGAAGCCCTCAGGGAGCTGATGAACCTCTACATCCAGATGAAGCCCGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATTCAGTACTTGGCCAGCATTGCAGCAGTTCCTGGAGCC------AAGAGAGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCTTGGAGGCTTTTGGTAATGCCAAAACTTTAAGGAATGACAACTCGTCACGCTTCGGAAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCAGCTGACATAGAGACTTATCTTCTGGAAAAGTCACGTGTCACCTTCCAACTCAAGTCAGAAAGGAATTACCATATCTTCTTTCAGATCTTGTCCAATAAAAAGCCAGAGCTGTTGGACATGCTTCTGATTACCAACAACCCATATGACTACTCGTACATCTCCCAAGGAGAGGTAACAGTAGCATCTATCAATGATGCTGATGAATTGATGGCCACTGACAGTGCCTTTGATATCCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGAGCTATCATGCATTTTGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCGGCTGACAAGTCAGCTTACCTCATGGGGCTGAACTCTGCAGATCTTGTGAAAGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTATGTCACCAAAGGGCAGGGTGTAGATCAAGTCTACTATTCTCTTGGTGCANNNNNNNNNNNNNNNAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGCACCAAGCTGTCGGAGCTGTCCTGGGGCATGTGCCTGAGCAACTTCCCGGCCATCTGTAAGACGGAGGACTTCCTCCAGCTCCCCAAGGACATGGTGATTCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTGTACGAGGCGGCCCTCAACTGGGTGAACTACGACCTGGAGAGACGCCACTGCGGCCTGCCGGAGCTGCTGCGCACCGTCCGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGCCCAGGTGAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGACGGCGTGGTCAACAGCCCCTGCGCCCGCCCCCGCAAGACAAGCCACGCCCTGTTCCTGTTGGGCGGACAGACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGTGCCTGTGCCATCGGCTGCAAGGTCTACGTCACAGGGGGGCGGGGCTCGGAGAAYGGCGTGTCCAAAGATGTGTGGGTGTACGACACCGTGCAGGAGGAGTGGTCCAAGGCGGCGCCGATGCTCATCGCCCGGTTCGGCCACGGCTCAGCTGAGCTGAAACACTGCCTCTACGTGGTGGGAGGGCATACCGCGGCCACGGGCTGCCTGATAGTAGGGACGGCTTTAAGCCTCCTTATCCGAGCCGAGCTAAGCCAACCTGGTGCCCTTCTAGGGGATGACCAGATTTATAATGTTATCGTCACTGCGCACGCTTTTGTTATAATCTTTTTTATAGTTATACCAATCATGATTGGAGGGTTTGGTAACTGGCTCATCCCCCTTATGATCGGAGCCCCCGATATGGCCTTTCCCCGCATAAATAATATAAGTTTCTGACTTTTACCTCCCTCCTTCCTTCTCCTTTTAGCTTCTTCTGGTGTTGAAGCGGGAGCCGGGACTGGCTGAACAGTTTATCCGCCGCTTGCTGGCAATCTGGCCCATGCCGGAGCTTCCGTTGATCTAACAATTTTCTCCCTTCACCTTGCGGGGATCTCCTCTATTCTAGGGGCCATCAATTTTATTACAACCATCATTAATATGAAGCCCCCTGCCATTTCCCAGTACCAGACCCCCTTATTCGTCTGAGCCGTCCTGATTACGGCCGTTCTTCTCCTCCTTTCCCTCCCAGTTTTAGCTGCTGGAATTACTATGCTTCTAACAGACCGAAATCTTAACACCACTTTCTTTGACCCTGCCGGGGGAGGGGACCCCATTCTATATCAACATTTATTCTGGTTCTTCGGGCACCCAGAAGTTTACATTCTAATTCTCCCCGGGTTTGGAATGATTTCACACATTGTTGCCTACTACTCAGGTAAAAAAGAACCCTTCGGGTATATAGGCATGGTCTGAGCTATGATGGCTATTGGCCTCCTCGGCTTCATTGTCTGAGCTCATCAWATGTTTACCGTAGGGATGGACGTTGACACCCGAGCATAC
168
Ijimaia antillarum AAGGCGGTCCGCTTCTCCTTCGCCATTATGTCAGTCTCTGTCCGGGTCGAAGGAACGGAAGAGGCGGTCACCGTCTTCAGGGAGCCGAAGCCCAACTCTGAATTGTCCTGTAAACCCCTCTGTTTGATGTTTGTGGATGAGTCTGACCATGAGACCCTGACGGCCATTCTGGGGCCTTTGGTGGCCGAGCGGAATGCGATGAAGCAGAGCCGCCTGATCCTGTCATTGGGCGGCCTCCCGCGCTCTTTCTCCTTTGAGTTCCGAGGCACGGGCTACGACGAGAAGATGGTGCGAGAGTTGGAGGGTATGGAGGCCTCTGGTTCCACCTACGTCTGCACCCTGTGCGACTCAACCCGAGCGGAGGCCTCTCGAAACATGGTGCTCCACTCCATCACCCGGAACCACGGCGAGAACCTGGAGCGGTACGAGATGTGGAGGAGCAACCCTTTCTCGGAGTCGGCCGAGGAGCTGCGGGAGCGGGTCAAGGGCATCTCTGCCAAACCCTTCCTGGAGACCCAGCCCACTTTGGATGCATTGCACTGCGACATTGGCAACGCCACCGAGTTTTACAAGATCTTCCAGGATGAAATCGGGGAGGTGTTCCGGGGG------ACCAACCCCAGCAGAGAAGAGCGGAGGAGCTGGAGGACGGCGCTGGACAAGCAACTGAGGAAGAG GATGAAGCTGAAGCCTGTGATGAGGATGAATGGTAACTACGCCCGCCGGCTGATGACCCATGACACTGTGGAAGTGGTGTGCGAGCTGGTGCCCTCGGAGGAGCGGCGGGAGGCGCTGAGGGAGTTGATGGGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACCAAGAGGGTCATCCAGTACTTTGCCAGCATTGCTGCAGTCGGTGGTGGAGGT---AAGAAAGATTCAAGCGAAGGGACACTGGAGGATCAAATCA TTCAGGCAAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACAGTGAGGAATGATAACTCATCCCGCTTTGGGAAATTCATCCGAATTCACTTTGGAACCAGTGGCAAATTGTCCTCTGCCGACATTGAGACTTATCTCCTGGAGAAGTCACGTGTTACCTTTCAGCTCAAGGCTGAGAGGAACTATCACATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGATGTTGGTCACCAACAACCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATGCAGAGGAGCTGATTGCCACTGACAGTGCCTTTGATGTCCTCGGCTTCACCCAGGAGGAGAAGCTGGGAGTTTACAAGTTGACAGGTGCGATCATGCACTATGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAAGAGCAGGCTGAGTCTGATGGCACAGAGGCTGCTGATAAGTCAGCTTATCTAATGGGGCTGAATTCTGCCGACCTCATTAAAGGGCTTTGCCATCCCAGAGTCAAAGTAGGAAATGAGTACGTCACCAAAGGCCAAGGTGTAGATCAGGTCTACTACTCTGTTGGTGCACTGGCA????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTAGGCACAGCCCTAAGCTTACTAATTCGAGCTGAACTAAATCAACCCGGCGCTCTTCTGGGAGACGACCAGATTTACAATGTAATTGTTACAGCACATGCCTTTGTAATAATTTTCTTTATAGTTATACCCATCATAATTGGGGGCTTTGGTAACTGACTAATCCCACTAATAATTGGCGCCCCTGACATAGCGTTTCCTCGAATAAACAACATAAGCTTTTGGCTTTTACCCCCCTCATTTCTATTACTACTAGCTTCTTCTGGGGTTGAAGCAGGAGCTGGAACGGGATGAACTGTTTACCCTCCCTTAGCTGGTAACCTAGCCCATGCTGGTGCCTCCGTAGATCTAACAATCTTCTCACTCCACTTAGCAGGTGTTTCATCTATCTTAGGAGCCATCAATTTTATTACCACTATTATTAATATAAAACCCCCAGCTATCTCACAGTATCAAACTCCTCTGTTTGTTTGATCCGTACTTATTACAGCTGTTCTACTTCTTCTCTCTCTCCCCGTGCTTGCTGCCGGCATTACAATATTACTTACAGATCGAAACTTAAACACAACATTCTTTGATCCTGCAGGAGGAGGGGATCCTATCTTATACCAACACTTATTCTGGTTCTTTGGCCACCCTGAGGTTTATATTTTAATTCTCCCCGGATTTGGTATAATCTCACACATCGTAGCCTACTACTCTGGGAAAAAAGAGCCTTTCGGGTATATAGGCATGGTCTGGGCCATAATGGCCATCGGCCTCCTCGGATTTATCGTGTGAGCTCACCACATATTCACAGTAGGAATAGACGTAGACACACGAGCTTAC
169
Synodus foetens AAGGCTGTGCGCTTTTCCTTTACCATCATGTCAATTTTTATCAAAGCAGATGGAGAGGAGGAAGCAGTTGTCATCTTCAGTGAACCAAAACCCAACTCTGAATTGTCATGTAAGCCATTATTTCTGATGTTTGTGGATGAGTCTGACCACGAGACACTCACAGCTGCTCTGGGGCCTCTGATAGAAGAGAGAAATGCCATGAAGGAGAGCCAACTCATTCTCTCGATGGGTGGTCTCCCCCGGTCTTTCAGCTTTCATTTCAGAGGCACCGGATATGATGAGAAGATGGTGCGAGAGATGGAAGGCCTGGAGGCCTCAGGCTCCACCTATGTCTGCACTCTTTGTGATTCCACCCGTGCTGAGGCCTCTCAAAACATGGTGCTCCACTCTGTCACACGCAACCACACTGAGAATCTTGAGCGCTATGAGTTATGGAGGACCAACCCCTTCAGTGAGTCAGCAGCAGAGCTACGAAACCGGGTCAAAGGGGTCTCTGCAAAGCCCTTTATGGAGACCCAGCCGACTCTGGATGCCCTACACTGTGACATTGGAAATGCCACAGAATTCTACAAAATCTTCCAGGATGAGATTGGGGAAGTGTTCCAGAGG------AACAATCCTAGCCGGGAGGAACGGCGCAGCTGGAGGGCAGCCCTCGATAAGCAGCTGAGGAAGAA GTTAAAGCTGAAACCAGTGATGCGGATGAATGGTAACTAYGCCCGGAGGCTGATGACCCAGGAAGCCGTGGAGGCAGTGTGTGAACTGGTGCCCTCAGAAGAGAGGCGGGAGGCCCTGAGGGAGCTGATGGGGCTCTATCTGCAGATGAAGCCAGTGTGGCGTAAGACTGTCAACACTAAACGAGTCATCCAGTATTTTGCCAGTATTGCTGCTGTTGGTGGTGGAGGA---AAAAAGGATTCAAGTAAAGGAACCCTGGAGGATCAAATCA TTCAGGCCAACCCTGCACTGGAAGCCTTCGGGAATGCTAAGACAGTGAGGAACGATAATTCCTCCCGTTTTGGAAAATTCATCCGCATTCACTTTGGAACCAGCGGCAAACTTTCATCAGCAGATATTGAGACTTATCTGCTAGAGAAGTCACGGGTCACCTTTCAGCTTAAGTCTGAGAGGAACTATCACATCTTCTTTCAGATCTTATCAAATCAAAAGCCTGAGCTGCTTGACATGCTGTTGATCACCAACAATCCTTACGACTACTGTTACATTTCCCAAGGAGAGGTTACTGTAGCATCCATCAATGACTCGGAGGAGCTAATGGCCACCGATAATGCTTTTGATGTACTTGGATTCACTCAAGAGGAGAAGATGGGGATCTACAAGTTGATAGGAGCAATCATGCACTACGGCAACATGAGGTTCAAACAGAAGCAACGTGAGGAACAGGCTGAGCCTGACGGTACAGAGGCTGCTGATAAGTCAGCTTACTTAATGGGGCTGAATTCAGCCGATCTCATCAAAGGACTCTGCCATCCCAGAGTAAAAGTAGGAAATGAGTATGTCACCAAAGGTCAGGGTGTAGATCAAGTCTATTATTCACTTGGNNNNNNNNNNCTTGAGAGGAACTTGCATCCTTCCAACTGCCTTGGCATGCTGTTATTGTCAGATGCCCACCAGTGCACCAAGCTGTCCGAGCTGTCATGGGGTATGTGCCTCAGCAATTTCCCTGCCATCTGCAAGACAGAGGACTTTCTTCAGCTGCCCAAAGATATGGTGGTGCAGCTTCTGTCCCATGAGGAGCTGGAGACTGAAGATGAGAGACTTGTTTATGAAACTGCCCTCAACTGGGTCAATTATGACCTAGAGAGAAGACATTGCGATCTACCAGAGCTCCTTAGAACCGTGCGACTCGCTCTGCTTCCTGCCATCTTCCTCATGGAGAATGTCTCCACAGAGGAGCTGATCAATGCCCAGGCTAAGAGCAAGGAGTTGGTTGATGAAGCCATCCGTTGCAAGCTGAAGATTCTGCAGAATGATGGTGTGGTCAACAGTCCATGTGCCCGCCCCAGAAAAACTAGTCATGCCCTTTTCCTCTTAGGAGGACAGACCTTCATGTGTGACAAACTGTACCTAGTGGATCAAAAGGCCAAAGAGATTATCCCCAAGGCTGACATCCCCAGCCCCAGGAAAGAGTTCAGCGCCTGTGCCATCGGCTGTAAGGTCTATGTTACAGGTGGGCGGGGTTCCGAAAACGGGGTGTCCAAAGATGTGTGGGTCTATGATACTGTGCACGAGGAGTGGTCCAAGGCAGCACCCATGCTCATTGCAAGGTTTGGCCATGGCTCTGCAGAACTCAAACACTGTCTCTACGTTGTAGGAGGTCACACAGCAGCCACTGGCTGCCTCATAGTAGGTACAGCTTTAAGCTTATTAATTCGAGCCGAACTAAGCCAGCCTGGGGCTCTTCTGGGAGATGACCAAATTTACAACGTCATCGTCACGGCCCACGCATTTGTTATGATCTTTTTTATAGTAATACCAATCATGATCGGGGGATTCGGGAACTGGTTAATTCCACTGATAATCGGCGCACCTGATATGGCATTCCCCCGAATGAACAACATAAGCTTCTGGCTGCTGCCCCCTTCTTTTTTACTACTCCTTGCTTCCTCTGGAGTAGAAGCAGGGGCAGGTACCGGTTGAACTGTGTACCCCCCCTTATCGGGCAACCTCGCCCATGCCGGAGCTTCAGTAGATTTAACAATTTTTTCCCTGCACTTAGCCGGGATCTCGTCCATTCTAGGAGCAATCAACTTTATTACGACTATTATCAACATAAAACCTCCCTCAATTTCCCAATATCAGACACCTCTATTCGTATGAGCTGTCCTGATTACAGCGGTACTTCTGCTTCTTTCCCTCCCAGTCCTGGCAGCAGGTATTACTATACTGCTAACTGACCGTAACCTTAACACCACATTCTTTGACCCCGCAGGGGGAGGAGACCCCATCCTGTACCAGCACCTATTCTGATTCTTTGGCCACCCTGAAGTCTACATTTTAATTCTTCCTGGTTTTGGGATAATCTCTCACATCGTTGCATACTATGCCGGGAAGAAAGAACCCTTCGGGTATATGGGAATGGTCTGGGCCATAATAGCAATTGGACTACTAGGTTTCATCGTATGAGCTCACCACATGTTCACAGTCGGAATGGACGTGGACACACGTGCTTAC
170
Neoscopelus macrolepidotus AAGGCGGTGCGTTTCTCTTTCACCATCATGTCCGTCTCCGTGCGGCCGGACGGGCGAGCGGAGCCGGTCACTATCTTCACGGAACCGAAGCCCAACTCGGAGCTGTCCTGTAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCGGACCACGAGATGCTCACCGCCGTCCTGGGGCCCGTGGTCGCCGAGCGGAAGGCGATGACGGAGAGCCGGCTCATCCTGTCTATGGGCGGCCTCCCCCGCTCCTTCCGCTTCCACTTCCGAGGCACCGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCGTCNGGCTCCACCTACGTCTGCACCCTGTGYGACTCCACCCGGGCGGAGGCCTCTCACAACATGGTGCTCCACTCCGTCACCCGCAGCCACAGCGAGAACCTGGAGCGCTACGAGATCTGGCGGAGCAACCCCTTCTCCGAGTCCGTCGAGGAGCTGCGAGATCGGGTGAAGGGGGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACTCTGGACGCGCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAAATTTTCCAGGACGAGATCGGGGAGGTGTTCCAGAGG------GCCAACCCCACCCGCGAGGAGAGGCGGAGCTGGAGGGCCGCCCTCGACAAGCAGCTGAGGAAGAA ATTGAAGCTCAAGCCTGTGATGCGGATGAACGGGAACTATGCCCGGAGGCTGATGTCCGAGGAGACCGTGGACGTGGTGTGCGAACTGGTGCCCTCRGAGGAAAGGCGGGAGGCCCTGAGGGAGCTAATGGGGCTTTACCTCCAGATGAAACCCGTGTGGCGTAAGACAGTCAACACCAAGAGAGTGATCCAGTACTTTGCCTCCATTGCTGCTGTCGGTGGCAGTGGC---AAGAAGGATACCAGTAAGGGAACCTTGGAGGATCAAATCA TCCAGGCCAACCCTGCGCTGGAGGCCTTTGGGAACGCCAAAACAGCCAGGAATGACAACTCATCCCGTTTTGGAAAATTCATCCGGATCCACTTCGGCACAAGCGGTAAGCTATCATCTGCTGACATCGAGACCTACCTGCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCCGAGAGGAACTATCACATCTTCTTCCAGATTTTGTCCAATCAGAAGCCGGAACTGTTGGACATGCTGCTCATCACTAACAACCCATACGACTACTCCTACATCTCCCAAGGAGAGGTGACAGTAGCCTCCATCAACGACTCAGAGGAGCTGATGGCCACGGACAGCGCCTTCGATGTGCTCGGCTTCACTCAGGAGGAGAAGATGGGAGTCTATAAGCTGACTGGTGCCATTATGCACTATGGCAACATGAAGTTTAAGCAGAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCTGCTGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCTGACCTCATCAAAGGACTTTGCCATCCCAGAGTCAAGGTAGGAAATGAGTATGTCACCAAAGGCCAGGGTGTAGATCAAGTCTACTACTCCCTTGGANNNNNNNNNCTAGAGAGGAACCTTCACCCATCCAACTGCTTGGGCATGCTGTTGCTGTCAGATGCTCACCAATGTACTAAGTTATCAGAGCTTTCTTGGGGCATGTGCCTCAGCAACTTCCCTGCCATCTGCAAGACAGAGGACTTCCTTCAACTTCCAAAAGACATGGTGGTGCAGCTCTTGTCCCATGAAGAACTGGAAACGGAAGATGAGAGACTGGTTTACGAAGCTGCCCTTAACTGGGTGAACTATGACCTGGAAAGGAGGCACTGTCATCTGCCAGAGCTGCTGAGAACAGTCCGTCTGGCTCTGCTTCCTGCCATCTTCCTCATGGAGAATGTTTCCACGGAGGAGTTGATCAATGCCCAGGCCAAAAGTAAAGAGCTTGTGGATGAGGCCATCCGCTGCAAACTGAAGATCTTACAGAACGATGGTGTGGTTAACAGCCTTTGTGCCCGGCCCAGGAAGACCAGCCATGCTCTCTTCCTGCTAGGAGGGCAAACCTTCATGTGTGACAAGTTGTACCTGGTGGACCAGAAGGCCAAAGAGATAATCCCCAAGGCAGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGTGCCATCGGTTGTAAGGTTTACATCACCGGCGGGAGGGGCTCAGAGAATGGTGTGTCTAAAGATGTGTGGGTCTACGACACCGTCCATGAGGAGTGGTCTAAGGCAGCACCCATGCTTATTGCTAGGTTTGGCCATGGCTCAGCTGAGTTGAAACACTGCCTCTACGTGGTGGGAGGTCACACTGCAGCTACTGGATGTCTTATAGTCGGNACTGCTCTTAGCCTCCTTATTCGGGCCGAGCTCAGTCAACCGGGAGCCCTCCTGGGGGACGACCAGATCTATAATGTAATTGTAACAGCCCATGCCTTTGTAATAATTTTCTTTATGGTAATGCCTATTATGATTGGAGGGTTTGGAAACTGACTAATCCCCCTTATAATTGGAGCCCCCGACATAGCATTCCCCCGTATAAATAATATAAGCTTCTGACTTCTCCCCCCCTCTTTTCTCCTCCTTTTAGCATCATCTGGTGTAGAAGCCGGAGCCGGGACCGGTTGAACAGTATACCCCCCCCTTGCAGGTAACCTCGCCCATGCGGGAGCCTCTGTTGACCTAACAATTTTTTCACTGCATCTAGCAGGTATCTCTTCAATTTTGGGGGCAATCAACTTCATTACAACCATTATTAATATAAAACCCCCTGCCATCTCCCAATACCAGACCCCCTTATTTGTATGGGCAGTCCTTATTACGGCCGTTCTTCTCCTCCTCTCCCTACCCGTCCTAGCCGCTGGTATTACTATACTTCTAACAGACCGAAACCTAAACACCACCTTTTTCGACCCAGCAGGCGGGGGAGACCCCATCCTGTATCAACATCTCTTCTGATTTTTCGGGCACCCTGAAGTATATATTCTTATTCTTCCGGGCTTTGGCATAATCTCTCATATTGTTGCGTACTATTCAGGTAAAAAAGAACCCTTTGGATATATGGGTATAGTTTGAGCCATGATGGCAATTGGACTTCTCGGATTCATCGTGTGGGCCCACCATATGTTTACAGTAGGAATGGATGTAGATACACGAGCATAC
171
Diplophos taenia AAGGCTGTGCGATTCTCCTTCACTGTCATGGCTGTCTCTGTCCAGGCAGAGGGAGAGGATRAGGCCGTCACCGTCTTCAGAGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACACTGACAGGCATCCTTGGGCCTGTGGTGGCTGAGAGGRACGCTATGAAGAACAGCCGCCTCATACTGTCTCTCGGGGGCCTCCCTCGATCCTTTYGCTTCCACTTCAGGGGCACAGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACATATGTCTGCACCCTCTGTGACTCCACCCGTGCAGAGGCCTCCCACAACATGGTGCTTCACTCCATTACCCGCAGCCACGATGAGAACATGGAGCGCTACGAGATCTGGAGGACTAACCCGTACTCCGAGTCCGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACTCAGCCCACCCTAGACGCTCTGCACTGTGATATCGGTAACGCCACCGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCGGAAG------CCCAACCCAAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGAGGCTGATGACCAGCGAGGCRGTGGAGAGTGTGTGTGAGCTAGTCCCCTCAGAACAGCGGCGTGAGGCTCTCAGGGAGCTGATGGGACTCTATCTCCAAATGAAGCCTGTGTGGCGCAAGACTGTCAACACTAAGAGAGTTATCCAGTATTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAAAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAATCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATCGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTTAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTKTTGATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAAGTAACAGTTGCATCCATCAATGATTCTGAGGAGCTGATGGCCACTGACAGTGCATTTGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTATAAGTTGACAGGTGCAATCATGCATTACGGAAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGCCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTTGACCAAGTCTACTACTCCCTTGGTGCACTGGCTNNNNNNNNNAACCTCCACCCGTCCAATTGCCTGGGGATGCTGCTTCTGTCGGACGCCCATCAGTGCACCAAGCTGTCTGAGCTGTCCTGGGGTATGTGCCTCAGCAACTTYCCCGCCATTTGCAAGACTGAGGACTTCCTCCAGTTGCCCAAAGACATGGTGGTGCAGCTGCTGTCTCACGAGGAGCTGGAGACGGAGGACGAGAGGCGGGTCTATGAGGCCGTCCTGAACTGGGTCAACTACGACTTGGAGAGGCGGCACTGCCACCTGCCGGAGCTGCTGAGAACGGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCATGGGCCCGGCCCAGAAAGACCAGCCACGCTCTGTTCCTGTTGGGGGGGCAGACCTTCATGTGCGACAAACTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTSTCCAAAGATGTTTGGGTCTATGAYACGTTCCATGAGGAATGGTCAAAGGCGGCCCCCATGCTCATTGCCCGGTTCGGTCATGGTTCTGCAGAACTCAAACATTGTCTGTACGTGGTAGGCGGACACACGGCCGGCACAGGCTGCCTCATGGTGGGCACGGCCCTTAGCCTGCTTATTCGGGCAGAGCTTAGCCAGCCCGGCGCGCTTCTAGGCGATGATCAAATCTATAATGTAATCGTCACGGCGCACGCCTTCGTAATAATCTTCTTTATAGTGATACCAATTATGATTGGGGGATTTGGAAACTGATTAATTCCCCTTATGATTGGGGCCCCGGACATGGCCTTCCCTCGGATGAACAATATAAGTTTCTGGCTCCTTCCTCCCTCCTTCCTTCTTCTCCTGGCTTCCTCCGGGGTGGAGGCCGGAGCCGGGACAGGATGAACCGTGTACCCCCCTCTCGCCGGCAACCTTGCCCATGCAGGAGCCTCCGTGGACCTCACCATCTTCTCCCTTCACCTCGCAGGGATTTCTTCTATTCTTGGGGCAATCAACTTTATCACTACAATCATTAACATAAAACCCCCTGCTATCTCCCAGTATCAAACACCTCTATTCGTGTGAGCCGTCCTAGTCACTGCCGTTCTCCTTCTACTATCCCTCCCCGTTCTAGCTGCAGGGATTACGATACTTCTCACCGACCGGAACCTAAACACCACCTTCTTTGACCCGGCAGGAGGGGGGGACCCAATCCTTTACCAGCACCTCTTTTGGTTCTTCGGGCACCCCGAAGTATACATTCTAATCCTCCCGGGCTTCGGTATAATCTCCCACATTGTTGCCTACTACGCAGGGAAAAAAGAACCTTTTGGGTACATAGGGATGGTATGAGCCATGATGGCCATTGGACTCCTAGGCTTCATCGTTTGGGCCCACCACATGTTCACGGTTGGAATGGACGTTGACACCCGAGCATAC
172
Triplophos hemingi AAGGCTGTGCGGTTCTCCTTCACCATCATGTCCATCTCTGTCCAGGTCGACGGTGAGGACGAGGCTGTCACCGTCTTCAGGGAGCCCAAGCCCAACTCTGAACTGTCTTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCAGATCATGAGACACTGACGGGCGTCCTCGGGCCTGTGGTGGCCGAGAGGGATGCCATGAAGAACAGCCGCCTGATCCTGTCTCTGGGAAGCCTCCCTCGATCCTTTCGCTTTCACTTCAGGGGTACAGGGTACGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACACGGGCAGAGGCCTCGCACAACATGGTGCTTCACTCTGTTACCCGCAGCCACGACGAGAACAAGGAGCGCTACGAGATCTGGAGGACCAACCCCTATTCCGAGTCGGCGGAAGAGCTCCGGAATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCAGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGGGTTGGCGGACAGCTTTGGACAAGCAACTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTACGCCCGACGGCTGATGACCTGCGAGGCGGTGGAGGTTGTGTGTGAGCTTGTCCCCTCTGAACAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACGTCCAAATGAAGCCTGTATGGCGT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCAGAYGCCCACCAGTGYACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCTGCCATCTGCAAGACCGAGGACTTCCTCCAGCTGCCCAAGGACATGGYGGTGCAGCTGCTGTCCCATGAGGAGCTAGAGACGGAGGACGAGCGGCTGGTCTACGAGGCTGCCCTCAACTGGGTCAACTATGACCTGGAGAGACGCCACTGCCACCTGGCCGAGCTGCTGAGGACGGTCCGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACAGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAATGACGGCGTGGTCAACAGCCCATGCGCCCGCCCCCGCAAGACTAGCCACGCTCTATTCTTGCTGGGCGGACAGACCTTCATGTGTGACAAGCTGTACTTGGTGGACCAGAAGGCCAAAGAGATCATCCCCAAGGCAGACATTCCCAGCCCCAGGAAGGAGTTCAGTGCCTGTGCCATCGGTTGCAARGTCTACGTCACCGGTGGGAGGGGCTCAGAGAATGGCGTGTCCAAAGATGTGTGGGTGTACGACACCTTCCAGGAGGAGTGGTCCAAGGCGGCTCCCATGCTCATCGCTCGGTTCGGCCACGGCTCAGCTGAACTCAAACACTGTCTCTATGTGGTAGGAGGACATACTGCCGGCACAGGATGCCTNATGGTCGGCACAGCTTTAAGCTTGCTCATCCGAGCGGAGTTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATTTATAATGTTATCGTTACGGCACATGCCTTCGTGATAATTTTCTTTATGGTAATACCAGTGATGATTGGGGGCTTCGGAAACTGGCTAATCCCCCTAATAATCGGGGCCCCTGATATAGCATTTCCCCGAATAAATAACATAAGCTTCTGACTCCTTCCCCCTTCCTTCCTTCTCTTGTTAACCTCTTCAGGAGTTGAGGCAGGGGCCGGAACTGGATGGACAGTTTATCCTCCCCTTGCCGGAAACCTGGCCCACGCGGGGGCCTCCGTCGACCTCACTATCTTCTCTCTTCACCTTGCAGGTGTCTCCTCAATCCTTGGGGCAATTAACTTTATTACCACAATTATTAACATAAAACCCCCAGCCATCTCCCAGTACCAGACACCCCTATTCGTTTGATCTGTCCTTGTAACCGCTGTTCTCCTCCTCTTGTCCCTCCCAGTCCTAGCTGCAGGGATTACAATGCTTTTAACCGATCGAAACCTAAACACAACCTTCTTCGACCCAGCAGGAGGAGGGGACCCCATCCTTTATCAACACCTTTTCTGGTTCTTCGGGCACCCCGAAGTATATATTCTTATTCTCCCAGGTTTCGGAATAATCTCTCATATTGTTGCCTACTACTCAGGCAAAAAAGAACCCTTCGGGTATATAGGCATGGTCTGGGCTATAATGGCCATCGGATTCTTGGGCTTTATTGTCTGAGCCCATCACATGTTTACAGTCGGAATAGACGTAGACACTCGGGCCTAC
173
Bonapartia pedaliota AAGGCCGTGCGATTCTCCTTCACCGTCATGTCTGTCTCTGTCCAGGCTGAGGGGGCGGATGAGGCCGTCACCATCTTCAGGGAGCTCAAGCCAAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGACGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCCGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTAGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGACGAGAAGATGGTGCGCGATATGGAGGGCCTGGAGGCCTCAGGCTCCACATACGTCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCTGAGTCGGCAGACGAGCTTCGGGATCGGGTAAAAGGTGTCTCCGCCAAACCCTTCATGGAGACTCAGCCCACGCTGGACGCCCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTACCGGAAG------CCCAACCCGAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGGTGGTGTGTGAGCTGGTCCCTTCAGAACAGCGGCGCGAGGCCCTCACGGAGCTGGTGGGGCTCTACCTCCAAATGAAGCCTGTGTGGCGC????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATAGTGGGCACGGCTTTAAGCCTACTCATCCGAGCCGAACTAAGCCAACCCGGCGCCCTCTTAGGAGACGACCAAATTTACAATGTAATCGTTACAGCACATGCTTTCGTAATAATCTTCTTTATAGTAATGCCCGTTATAATTGGGGGTTTTGGGAATTGACTTATTCCCCTAATAATCGGGGCCCCCGATATAGCATTCCCACGCATAAACAACATAAGCTTCTGACTCCTACCTCCTTCTTTTCTTCTCCTACTAGCCTCCTCAGGTGTTGAAGCTGGGGCCGGAACAGGGTGGACCGTCTATCCCCCTCTCGCCGGCAATTTAGCCCACGCCGGGGCCTCTGTCGACTTAACAATCTTTTCCCTCCATCTTGCAGGCATTTCCTCAATCCTTGGTGCAATCAACTTTATTACCACCATTATTAATATGAAACCTCCCGCCGCCTCGCAGTATCAGACACCCCTCTTCGTCTGAGCTGTCCTAATTACCGCTGTCCTTCTCCTCCTCTCCCTCCCAGTCTTAGCTGCCGGCATCACCATGCTTCTAACAGATCGAAATCTAAATACAACCTTCTTTGACCCCGCCGGAGGAGGGGACCCCATCCTCTACCAACACCTCTTTTGATTCTTCGGTCACCCCGAAGTTTATATTCTAATCCTCCCCGGCTTTGGTATAATCTCACACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTTGGATACATGGGCATAGTTTGAGCTATAATAGCCATCGGGCTCCTAGGCTTTATTGTCTGAGCCCATCATATGTTTACAGTCGGAATAGACGTAGACACCCGGGCCTAT
174
Cyclothone acclinidens NNNNNNGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCATCCAGGCTGAGGGGGAGAATGAGGCCGTCACTGTGTTCAGGGAGTCCAAGCCCAACTCAGAGCTGTCCTGCAAGCCTTTGGTTCTGATGTTTGTGGACGAGTCTGACCATGAGACGCTGACGGGCGTCCTTGGGCCCGTGGTGGCAGAGAGAAATGCCATGAAGAACAGCCGCCTCATCCTGTCGCTGGGAGGCCTTGCCAGATCCTTCCGCTTCCTCTTCAGAGGCAGCGGCTACGATGAGAAGATGGTACGCCAGATGGAGGGTCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGTGCGGAGGCATCTCACAACATGGTGCTCCACTCCATCACCCGCAACCACGAGGAAAACATGGAGCGTTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGAGCAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATCGGTAATGCCACAGAGTTCTACAAGATCTTTCAGGATGAGATTGGAGAGGTGTACCAGAGG------CCAAACCCAAGCACGGAGGAGCGCCGGAGCTGGCGGGCAGCTCTGGACAAGCAGCTGAGACACAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCAGCGAGGCAATAGAGGTGGTGTGTGAGCTGGTCCCCTCGGAGCAGCGGCGGGAGGCCYTCAGGGAGCTGATGGCGCTCTACATTCAAATGAAGCCTGTGTGGCGCNNNACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGTGGGGCG------AAGAGGGATCCCAGCAAGGGGACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCTTGGAGGCGTTTGGTAATGCCAAAACAATAAGAAATGACAACTCATCACGCTTTGGCAAATTCATTCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCAGCAGACGTAGAAACGTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCACATCTTCTTTCAGATCTTGTCCAATCACAAGCCAGAGTTGTTGGACATGCTTTTAATCACCAACAATCCATACGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTACCGTCCATCAACGATTCTGAGGAGTTGGTCGCCACTGACAGTGCTTTCGATGTGCTCGGCTTTACTCAGGAGGAGAAGAATGGGATCTACAAGTTGACGGGTGCGATCATGCATTTCGGCAACATGAAGTTCAAGCAGAAGCAGCGTGAGGAGCAGGCTGAGCCTGATGGCACCGAGGCTGCCGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCCGATCTGGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTAGGCAATGAGTATGTTACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATCGGTGCACTGGCT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????NNNNNNNNNNNNGCCCTAAGCTTGCTCATTCGAGCAGAACTAAGCCAACCTGGCGCTCTCTTGGGCGACGACCAAATTTATAACGTAATTGTCACTGCACATGCCTTTGTAATAATTTTTTTTATAGTAATGCCAATTATGATCGGGGGGTTTGGAAACTGACTCATCCCACTAATGATCGGAGCTCCTGACATAGCATTCCCTCGAATAAACAACATGAGTTTCTGACTCCTTCCCCCATCCTTTCTGCTACTCCTAGCCTCTTCAGGTGTAGAAGCAGGGGCAGGTACTGGGTGAACAGTATACCCCCCTCTAGCCAGTAATCTTGCCCATGCTGGAGCATCCGTTGACCTAACAATCTTCTCACTACACCTAGCAGGTATCTCCTCAATTCTGGGGGCAATTAACTTTATCACAACCATTATTAACATGAAACCTCCAACAGTCTCTCAGTATCAGACGCCCTTATTTGTATGAGCTGTTCTAATCACCGCAGTCCTTCTCCTCCTCTCCCTTCCAGTCCTAGCCGCTGGCATTACAATGTTCTTAACAGACCGAAATTTAAACACCACGTTCTTTGACCCAGCAGGAGGGGGTGACCCCATCCTTTATCAACACCTATTCTGATTCTTCGGCCACCCAGAAGTATACATCCTCATTCTTCCAGGCTTTGGAATGATTTCCCACATTGTTGCGTACTATTCAGGTAAAAAAGAACCCTTTGGATACATGGGCATGGTCTGAGCTATGATGGCCATTGGACTTCTAGGGTTCATCGTATGAGCACATCACATGTTTACAGTCGGGATAGATGTAGACACCCGAGCATAC
175
Cyclothone microdon AAGGCTGTGCGCTTCTCCTTCACCATCATGTCCATCTCCATCCAGGCTGAGGGGGAGAATGAGGCCGTCACTGTCTTCAGGGAGTCCAAGCCCAACTCAGAGCTGTCCTGCAAGCCTTTGGTTCTGATGTTTGTGGATGAGTCTGACCATGAGACGCTGACGGGCGTCCTTGGGCCCGTGGTGGCAGAGAGAAATGCCATGAAGAACAGCCGCCTCATCCTGTCCCTGGGAGGCCTCGCCAGATCCTTCCGCTTCCTCTTCAGAGGCAGCGGCTATGATGAGAAGATGGTACGCCAGTTGGAGGGTCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGCGACTCGACCCGTGCGGAGGCCTCTCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCTGCAGATCAGCTTCGGGATCGGGTGAAAGGTGTCTCAGCCAAACCCTTCATGGAGACCCAGGCCACTCTGGACGCTCTGCACTGTGACATTGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATTGGAGAGGTGTACCAGAGG------CCAAACCCAAGCACGGAGGAGCGCAGGAGCTGGCGGGCAGCTCTGGATAAGCAGCTCAGGCACAG GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCAGCGAGGCAATAGAGGTGGTGTGTGAGCTGGTCCCCTCGGAGCAGCGGCGGGAGGCCCTCAGGGAGCTGATGGCACTCTACATTCAAATGAAGCCTGTGTGGCGCNNNACTGTCAACACCAAGAGAGTCATCCAGTACTTTGCCAGCATCGCTGCAGTGGGCGGGGGC------AAGAGCGACCCTAGCAAGGGGACGCTGGAGGACCAGATCA TCCAGGCCAACCCTGCACTGGAGGCCTTCGGAAATGCCAAAACACTAAGGAATGACAACTCATCTCGTTTTGGCAAATTCATCCGGATTCACTTTGGAACAAGTGGMAAGCTGTCATCGGCCGAYATCGAGACTTACCTGCTGGAAAAGTCCCGGTGCACCTTTCAGCTCAAGGCTGAGAGGAACTACCATATCTTCTACCAGATCCTGTCCAATCAGAAGCCAGAGCTGCTGGACATGCTGCTGATCACCAACAACCCTTACGACTACTCCTACATCTCCCAGGGAGAGGTGACGGTAGCATCCATCAATGACTCGGAGGAGCTGCTGGCCACCGACAGCGCCTTTGATGTGCTGGGCTTCACTGCGGAGGAGAAGACGGGCGTCTATAAACTCACCGGCGCTATCATGCACTACGGCAACATGAGGTTCAAACAGAAGCAGCGCGAGGAGCAGGCTGAGCCGGACGGCACAGAGGCCGCTGATAAAACAGCCTACCTGATGGGGCTGAACTCTGCCGACCTCATCAAGGGGTTGTGTCATCCCAGGGTGAAGGTCGGCAATGAATATGTCACCAAAGGTCAAAGTGTGGACCAAGTCTACTACTCCNNNNNNNNNNNNNNNCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTCTCCGACGCACACCATTGTACCAAGCTGTTTGAGCTCTCCTGGGGCATGTGCCTGAGCAACTTCCCTGCCATCTGCAAGACAGAGGACTTTCTCCAGCTGCCCAAGGACATGGTGGTACAGCTGCTGTCCCACGAGGAGCTGGAGACTGAGGACGAGCGGCTGGTGTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGCCACTGCCACCTTGCGGAGCTGCTGCGGACGGTGCGCCTGGCGCTGCTACCCGCCATCTTCCTGATGGAGAACGTGTCCACAGAGGAGCTGATCAACGCCCAGATCAAGAGCAAGGAGCTGGTGGATGAGGCCATTCGCTGCAAGCTGAAGATACTGCAGAACGACGGCGTGGTCAACAGCCCCTGCGCCCGTCCGCGCAAGACCAGCCATGCTCTCTTTCTGTTGGGCGGCCAGACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAAGCGAAGGAGATCATCCCCAAGGCCGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGTGGACGGGGCTCGGAGAACGGCGTGTCCAAGGACGTGTGGGTGTACGACACGGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCCCGTTTTGGCCACGGCTCGGCCGAGCTGAAGCACTGCCTCTACGTGGTGGGTGGCCACACGGCGGCCACCGGCTGCCTCATAGTCGGAACGGCTTTAAGCCTTCTCATTCGAGCTGAACTAAGCCAACCCGGGGCTCTTCTAGGGGACGATCAAATCTACAACGTAATTGTTACAGCTCATGCTTTCGTAATAATTTTCTTTATAGTTATACCCATCATGATCGGAGGCTTCGGCAACTGATTAGTTCCCCTAATGATTGGGGCACCAGATATAGCATTTCCACGAATAAATAACATAAGCTTTTGATTGCTTCCACCCTCTTTCCTACTCCTTCTAGCTTCCTCAGGAGTCGAAGCAGGCGCAGGAACAGGCTGAACAGTCTACCCTCCCCTGTCCGGAAACCTGGCCCACGCCGGCGCCTCAGTGGACTTAACGATCTTCTCACTACACCTAGCTGGGATCTCTTCAATTCTCGGGGCTATCAACTTTATTACCACAATCATTAATATAAAACCTCCCGCCATCTCCCAATACCAAACGCCCTTGTTCGTCTGATCCGTTCTTATCACTGCAGTCCTCCTCCTTCTATCCCTCCCTGTCCTTGCAGCCGGTATTACTATGCTTTTAACCGACCGAAACTTAAACACCACTTTCTTTGACCCAGCAGGGGGTGGAGACCCAATTCTTTACCAACACTTGTTCTGATTCTTTGGCCACCCTGAGGTTTACATTCTTATCCTCCCAGGCTTCGGTATAATTTCTCACATCGTTGCATACTACTCTGGTAAAAAAGAACCTTTCGGATACATGGGAATAGTCTGGGCAATGATGGCTATCGGCCTCCTAGGGTTCATCGTTTGGGCTCATCACATGTTTACCGTAGGAATAGACGTAGACACACGAGCCTAC
176
Cyclothone parapallida AAGGCTGTGCGCTTCTCCTTCACCATCATGTCCATCTCCATCCARGCTGAGGGGGAGAATGAGGCCGTCACTGTCTTCAGGGAGTCCAAGCCCAACTCAGAGCTGTCCTGCAAGCCTTTGGTTCTGATGTTTGTGGATGAGTCTGACCATGAGACGCTGACSGGCGTCCTTGGGCCCGTGGTGGCAGAGAGAAATGCCATGAAGAACAGCYGCCTCATCCTGTCCCTGGGAGGCCTCGCCAGATCCTTCCGCTTCCTCTTCAGAGGCAGCGGCTATGATGAGAAGATGGTACGCCAGTTGGAGGGTCTGGAGGCCTCAGGCTCCAYGTACATCTGCACCCTCTGCGACTCGACCCGTGCGGAGGCCTCTCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCTGCAGATCAGCTTCGGGATCGGGTGAAAGGTGTCTCAGCCAAACCCTTCATGGAGACCCAGGCCACTATGGACGCTCTGCACTGTGACATTGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATTGGAGAGGTGTACCAGAGG------CCAAACCCAAGCACGGAGGAGCGCAGGAGCTGGCGGGCAGCTCTGGATAAGCAGCTCAGGCACAG GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCAGCGAGGCAATAGAGGTGGTGTGTGAGCTGGTCCCCTCGGAGCAGCGGCGGGAGGCCCTCAGGGAGCTGATGRCACTCTACATTCAAATGAAGCCTGTGTGGCGC????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CTGGAGAGGAACCTGCACCCCTCCAACTGCCTAGGCATGCTGCTGCTCTCCGACGCACACCATTGTACCAAGCTGTTTGAGCTCTCCTGGGGCATGTGCCTGAGCAACTTCCCTGCCATCTGCAAGACAGAGGACTTTCTCCAGCTGCCCAAGGACATGGTGGTACAGCTGCTGTCCCACGAGGAGCTGGAGACTGAGGACGAGCGGCTGGTGTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGCCACTGCCACCTTGCGGAGCTGCTGCGGACGGTGCGCCTGGCGCTGCTGCCCGCCATCTTCCTGATGGAGAACGTGTCCACAGAGGAGCTGATCAATGCCCAGATCAAGAGCAAGGAGCTGGTGGATGAGGCCATTCGCTGCAAGCTGAAGATACTGCAGAACGACGGCGTGGTCAACAGCCCCTGCGCCCGTCCGCGCAAGACCAGCCATGCTCTCTTCCTGTTGGGCGGCCAGACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAAGCGAAGGAGATCATCCCCAAGGCTGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGCGGACGGGGCTCGGAGAACGGCGTGTCCAAGGACGTGTGGGTGTACGACACGGTCCAGGAGGAGTGGTCCAAGGCAGCACCCATGCTCATTGCCCGTTTTGGCCATGGCTCGGCCGAGCTGAAGCACTGCCTCTACGTGGTGGGTGGCCACACGGCGGCCACCGGCTGCCTCATGGTAGGCACAGCCCTAAGCCTACTTATCCGAGCAGAGCTCAGCCAACCTGGCGCGCTCCTCGGCGATGACCAGATTTATAATGTAATCGTTACTGCCCATGCCTTTGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGAGGCTTTGGAAACTGACTAATTCCTCTAATGATTGGCGCCCCCGATATGGCCTTCCCTCGAATAAACAACATGAGCTTCTGACTGCTCCCGCCTTCATTCCTTCTCCTTCTTGCGTCTTCAGGGGTTGAAGCCGGTGCTGGTACAGGCTGAACAGTATATCCCCCACTAGCAGGAAACCTCGCCCATGCAGGAGCCTCTGTTGACCTGACAATTTTCTCATTGCATCTGGCAGGCATTTCATCTATTCTAGGGGCTATTAACTTTATTACAACGATTCTAAATATGAAACCCCCTGCAATTTCGCAGTACCAGACGCCCCTCTTTGTCTGAGCAGTCTTAATTACAGCCGTTCTTCTGCTTCTTTCTTTGCCCGTTCTTGCAGCCGGAATTACAATACTTCTAACAGATCGAAACCTGAACACAACCTTCTTCGACCCTTCAGGGGGAGGAGACCCCATCCTTTACCAACACCTATTCTGATTCTTTGGGCACCCTGAAGTCTACATTCTTATTCTGCCTGGCTTTGGCATGATCTCCCACATTGTAGCATACTATGCTGGCAAAAAAGAACCCTTTGGATACATGGGGATAGTGTGAGCAATGATGGCCATTGGCCTCCTTGGTTTTATTGTCTGAGCCCACCACATGTTTACTGTCGGAATGGATGTTGACACACGAGCATAT
177
Cyclothone pseudopallida AAGGCTGTGCGCTTCTCCTTCACCATCATGTCTGTCTCCATCCAGGCTGAGGGGGAGAAGGAGGCCGTCACTGTCTTCAGGGAGTCCAAGCCCAACTCAGAGCTGTCCTGCAAGCCTCTGGCTCTGATGTTTGTGGACGAGTCTGACCATGAGACGCTGACGGGCGTCCTTGGGCCCGTGGTGGCAGAGAGAAATGCCATGAAGAACAGCCGCCTCATCCTGTCCCTGGGAGGCCTCGCCAGATCCTTCCGCTTCCACTTCAGAGGCACCGGCTACGACGAGAAGATGGTGCGCCAGATGGAGGGTCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGTGTGGAGGCTTCTCACAACATGGTGCTCCACTCCATCACMCGCAGCCACGAGGAGAACATGGAACGCTATGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGATCAGCTTCGGGATCGGGTGAACGGTGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATTGGTAATGCCAATGAGTTCTACAAGATCTTTCAGGATGAGATTGGAGAGGTGTACCAGAGG------CCAAACCCAAGCACGGAGGAGCGTAGGAGCTGGCGGGCAGCTCTGGACAAGCAGCTGAGGCGCAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTAATGACCAGCGAGGCAATAGAGGTTGTGTGTGAGCTGGTCCCCTCGGAGCAGCGGCGGGAGGCCCTCAGGGAACTGATGTCGCTCTACATTCAAATGAAGCCTGTGTGGCGCNNNNNNNNNNNNNNNNNNCGCGTCATCCAGTACTTTGCCAGCATTGCAGCGGTGGGCGGAGCC------AAAAGAAGGACCAGCAAGGGCACCTTAGAAGATCAGATCA TCCAGGCCAACCCCGCCCTGGAGGCCTTCGGAAACGCCAAAACCCTTCGAAACGACAACTCGTCTCGATTTGGGAAGTTCATCCGGATTCACTTTGGCACCAGTGGGAAACTGTCGTCCGCTGACATCGAAACGTATCTGCTGGAGAAGTCGCGTGTGACCTTTCAGCTTAAGGCCGAGAGGAACTACCACATCTTCTACCAGATCATGTCCAATCAGAAGCCGGAGCTTCTGGAGCAGCTGCTGATCACCACMAACCCGTACGATTATTGGTACATGTCTCAAGGAGAAGTCACTGTGGCCTCCATCAACGATGCAGACGAGCTCATGGCTACTGACAGCGCCTTCGACGTCCTTGGCTTCACCGCCGATGAAAAGGCCGCCGTCTACAAGCTGACCGGTGCCATCATGCACTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCCGAGCCCGATGGCACTGAGTCGGCCGATAAATCGGCCTTTCTCATGGGGCTGAACTCAGCCGACCTCATCAAAGGCCTGTGTCACCCACGGGTCAAAGTGGGCAACGAGTACGTGACCAAAGGCCAGAGTGTGGATCAAGTCTACTACTCCATCGGTNNNNNNNNNCTGGAGAGGAACCTGCACCCCTCCAACTGCCTGGGCATGCTGCTGCTCTCCGACGCCCACCAGTGCACCAAGCTGTCAGAGCTCTCCTGGGGCATGTGCCTGAGCAACTTCCCAGCCATCTGCAAGACAGAGGACTTTCTCCAGCTGCCCAAGGACATGGTGGTGCAGCTGCTGTCCCACGAGGAGCTGGAGACTGAGGATGAGCGGCTGGTGTACGAGGCCGCACTCAACTGGGTCAACTATGACCTGGAGAGGCGTCACTGCCACCTGGCAGAGCTGCTGCGGACGGTGCGTCTGGCACTGCTTCCCGCCATTTTCCTGATGGAGAATGTGTCCACGGAGGAGCTGATCAATGCCCAGATCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGACGGCGTGGTCAACAGCCCCTGCGCCCGCCCGCGCAAGACCAGCCATGCTCTCTTCCTGCTGGGCGGCCAGACATTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAAGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGTGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGCGGGCGGGGCTCGGAGAACGGCGTGTCCCAGGACGTGTGGGTGTACGACACGGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATTGCCCGTTTTGGCCASGGCTCGGCCGAGCTGAAACACTGCCTCTACGTGGTGGGCGGCCACACGGCGGCCACCGGCTGCCTCATGGTAGGCACAGCCCTAAGCCTACTTATCCGAGCAGAGCTCAGCCAACCTGGCGCGCTCCTCGGCGATGACCAGATTTATAATGTAATCGTTACTGCCCATGCCTTTGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGAGGCTTTGGAAACTGACTAATTCCTCTAATGATTGGCGCCCCCGATATGGCCTTCCCTCGAATAAACAACATGAGCTTCTGACTGCTCCCGCCTTCATTCCTTCTCCTTCTTGCGTCTTCAGGGGTTGAAGCCGGTGCTGGTACAGGCTGAACAGTATATCCCCCACTAGCAGGAAACCTCGCCCATGCAGGAGCCTCTGTTGACCTGACAATTTTCTCATTGCATCTGGCAGGCATTTCATCTATTCTAGGGGCTATTAACTTTATTACAACGATTCTAAATATGAAACCCCCTGCAATTTCGCAGTACCAGACGCCCCTCTTTGTCTGAGCAGTCTTAATTACAGCCGTTCTTCTGCTTCTTTCTTTGCCCGTTCTTGCAGCCGGAATTACAATACTTCTAACAGATCGAAACCTGAACACAACCTTCTTCGACCCTTCAGGGGGAGGAGACCCCATCCTTTACCAACACCTATTCTGATTCTTTGGGCACCCTGAAGTCTACATTCTTATTCTGCCTGGCTTTGGCATGATCTCCCACATTGTAGCATACTATGCTGGCAAAAAAGAACCCTTTGGATACATGGGGATAGTGTGAGCAATGATGGCCATTGGCCTCCTTGGTTTTATTGTCTGAGCCCACCACATGTTTACTGTCGGAATGGATGTTGACACACGAGCATAT
178
Gonostoma elongatum AAGGCTGTGCGATTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGGAAGGATGAGGCCGTCACCGTCTTCAGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGTGTCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTGAGATCCTTCCGCTTCCACTTCAGAGGTACAGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTACCGGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGGGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGCGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTAYGCCCGGCGGCTGATGAGCACAGAGGCGGTGGAGGTGGTCTGTGAGCTGGTCCCCTCAGAGCAGCGGYGGGAGGCCCTCAGGGAACTGATGGGGCTCTACCTCCAAATGAAGCCTGTGTGGCGCNNNNNNNNNAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGCCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCCAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGCGGCAAGCTGTCCTCTGCAGACGTAGAGACTTACCTTCTGGAAAAGTCGCGTGTCACCTTTCAGCTCAAAGCAGAGAGGAACTACCACATCTTCTTCCAGATCTTGTCCAATCACAAGCCAGAGCTGTTGGACATGCTTTTGATCACCAACAATCCATACGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACCGACAGTGCNTTCGATGTGCTTGGCTTTACTCAGGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCAYTACGGCAACATGAGGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCTGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTATCTAATGGGGCTGAACTCTGCAGATCTCGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGTCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCCACCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGCACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTCCAGCTCCCCAAGGACATGGTGGTGCAGCTGCTGTCGCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTGTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGCCACTGCCACCTGGCCGAGCTGCTGAGGACGGTCCGCCTGGCGCTGCTGCCCGCCATCTTCCTGATGGAGAACGTGTCGACGGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGACGGCGTGGTCAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGACAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAAGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGGGGGCGGGGCTCGGAGAACGGCGTGTCCAAAGACGTGTGGGTGTACGACACCGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCACGGCTCGGCCGAGCTGAAACACTGCCTCTACGTGGTGGGAGGGCATACGGCGGCCACCGGCTGCCTCATGGTCGGGACAGCTCTAAGCCTGCTAATTCGAGCAGAACTGAGCCAAYCCGGCGCTCTCCTTGGAGACGATCAAATTTATAATGTAATCGTCACAGCTCATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATCATAATCGGGGGCTTCGGCAACTGATTAATTCCACTGATGATCGGCGCCCCCGACATGGCATTCCCTCGTATAAATAATATGAGCTTTTGACTTCTACCCCCATCATTCCTCCTACTTCTAGCATCTTCCGGTGTAGAAGCTGGAGCTGGTACCGGTTGAACGGTATACCCACCCCTGGCAGGCAACCTAGCACATGCGGGAGCTTCTGTAGACCTAACAATCTTCTCTCTTCACCTGGCGGGTGTTTCGTCGATTCTCGGGGCTATCAATTTTATCACCACCATTATCAACATGAAACCCCCAGCCATTTCTCAGTACCAGACACCCCTCTTTGTTTGAGCAGTTCTGATCACTGCCGTTCTTCTACTTCTATCTCTCCCAGTACTAGCCGCTGGTATTACAATGCTTTTAACCGATCGTAATTTAAACACAACCTTCTTTGACCCGGCAGGCGGCGGGGACCCAATCCTTTACCAACACCTATTYTGATTCTTTGGGCACCCGGAAGTGTACATTCTAATTCTACCYGGATTCGGCATGATCTCACACATCGTAGCCTACTACTCAGGTAAGAAAGAACCCTTCGGATACATGGGAATGGTTTGAGCCATAATGGCCATCGGACTACTGGGCTTCATTGTGTGAGCTCACCACATGTTCACGGTAGGCATGGATGTAGACACGCGGGCATAT
179
Sigmops bathyphilus AAGGCCGTGCGATTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGGGAGGACGAGGCCGTCACCGTCTTCAGGGAGCCCAAGCCCAACTCCGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGGCGTCCTCGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAAAACAGCCGCCTCATCCTGTCCCTGGGAGGCCTCCCGAGATCCTTCCGCTTCCACTTCAGGGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGGCTGGAGGCCTCGGGCTCCACGTACGTCTGCACCCTCTGCGACTCCACCCCGGCGGAGGCCTCCCGCAACATGGTGCTCCACTCCGTCACCCGCAGCCACGACGAGAACACGGAGCGCTACGAGATATGGAGGACCAACCCCTACTCCGAGTCCGCGGACGAGCTCCGGAATCGGGTGAAAGGCGTCTCCGCCAAACCCTTCCTGGAGACCCATCCCACCCTGGACGCTCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAACCCCAGCAGGGAGGAGCGCCGCAGCTGGCGCGCCGCTCTGGACAAGCAGCTGAGGCGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCACCGAGGCGGTGGAGGTGGTGTGCGAGCTGGTCCCCTCAGAGCAGCGGCGGGGGCCCCTCAGGGAGCTGCTGGGGCTCTACCTCCAAATGAAGCCCGTGTGGCGC????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????NNNNNNNNNNNNCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGCGCCAAGCTCTCCGAGCTCTCCTGGGGCATGTGCCTCAGCAGCTTCCCCGCCATCTGCAAGACGGAGGACTTCCTCCGGCTCCCCAAGGACATGGTGGTGCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGCGGCTGGTGTACGAGGCCGCCCTCGACTGGGTCAACTACGACCTGGAGAGGCGCCACTGCCACCTGGCCGCGCTGCTGCGGACGGTGCGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGACGGCGTGGTCAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGACAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAAGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACGGGGGGGMGGGGCTCGGAGAACGGCGTGTCCAAAGACGTGTGGGTGTACGACACCGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCACGGCTCGGCCGAGCTGAAACACTGCCTCTACGCGGTGGGAGGGCACACCGCGGCCACGGGCTGCCTCATGGTAGGTACTGCTTTAAGCCTTCTCATCCGAGCTGAACTCAGTCAACCCGGTGCCCTTCTGGGCGATGACCAAATCTAYAATGTTATTGTTACAGCGCACGCYTTTGTGATAATTTTCTTTATAGTAATRCCAATCATGATCGGGGGTTTCGGGAACTGRCTAATCCCACTTATGATCGGAGCCCCAGAYATGGCCTTCCCTCGAATAAATAACATAAGTTTCTGACTTCTCCCCCCCTCCTTTCTCCTTCTCCTCGCTTCTTCCGGAGTTGAAGCCGGAGCCGGAACCGGATGAACAGTATACCCCCCTCTAGCCGGAAATTTGGCCCATGCTGGAGCATCCGTTGACTTAACTATCTTTTCCCTTCATCTGGCAGGAATTTCATCAATTCTGGGGGCCATCAACTTTATTACAACAATTATTAACATGAAACCCGCAGCTATCTCCCAGTACCAAACCCCYTTATTTGTTTGAGCCGTTCTCATTACCGCCGTTCTTCTTTTACTTTCTCTTCCCGTTCTAGCCGCAGGCATCACAATACTTCTAACTGACCGAAACCTAAATACAACTTTCTTTGACCCGGCAGGTGGAGGAGACCCGATTCTTTATCAACACTTATTCTGATTCTTCGGCCACCCTGAAGTCTAYATYCTAATYTTACCAGGCTTCGGGATGATTTCTCATATTGTTGCATACTACTCAGGCARAAAAGAACCTTTCGGTTATCTAGGACTAGTTTGGGCCATAATGGCCATCGGACTCCTAGGTTCTACTGTTTGAGCACATCACATGTTCACCGGAGGGATGGATGTGGACACACGAGCTTAC
180
Sigmops longipinnis AAGGCTGTGCGATTCTCCTTCACCGTCATGTCTGTCTCCGTCCAAGCCGAAGGGGAGGACGAGGCCGTCACCGTCTTCAGGGAGTCCAAGCCMAACTCTGAGCTGTCCTGCAAGCCTCTGTGTTTGATGTTTGTGGACGAGTCTGATCACGAGACGCTGACGGGTGTCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTGAGATCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATTTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCTCCCGCAACATGGTGCTTCACTCCATCACTCGCAGCCACGAGGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGAGTGAAAGGTGTCTCCGCTAAACCCTTCATGGAGACGCAGCCCACCCTGGACGCTCTGCACTGCGACATCGGTAACGCCACCGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTACCGGAGG------CCCAACCCGAGCAGGGAGGAGCGCCGTGGCTGGCGGGCCGCTCTGGACAAGCAGCTGAGGCGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCACCGAGGCGGTGGAGGTGGTCTGCGAGCTGGTCCCCTCGGAGCAGCGGCGGGAGGCCCTCAGGGAGCTGACGGGGCTCTACCTCCAAATGAAGCCAGTGTGGCGCNNNACTGTCAACACCAAGAGGGTTATCCAGTACTTTGCCAGTATTGCTGCAGTTGGCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCCAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACATTGAGAAATGACAACTCTTCACGATTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTCTCCTCTGCAGACGTAGAGACTTACCTTCTGGAAAAGTCGCGTGTCACCTTTCAGCTCAAATCAGAGAGGAATTACCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTGATCACCAACAATCCATACGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAATTGATAGCCACAGACAGTGCATTCGATGTGCTTGGCTTTACTCAGGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAGGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCTGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAAGGACTTTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGTCAGGGTGTTGACCAAGTCTACTACTCCCTTGGTGCACTGNNNCTCGAGCGGAACCTGCACCCGACCAACTGCCTGGGCATGCTGCTGCTCTCCGACGCCCACCAGTGCACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTCCGGCTCCCCAAGGACATGGCGGTGCAGCTGCTGTCGCACGAGGAGCTGGAGACGGAGGACGAGCGGCTGGTGTACGAGGCGGCCCTCGACTGGGTCAACTACGACCTGGAGAGGCGCCACTGCCACCTGGCCGAGCTGCTGCGGACGGTCCGCCTGGCGCTGCTGCCCGCCATCTTCCTGATGGAGAACGTGTCGACGGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGACGGCGTGGTCAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGACAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGGGGGCGGGGCTCGGAGAACGGCGTGTCCAAGGACGTGTGGGTGTACGACACCGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCACGGCTCCGCCGAGCTGAAGCACTGTCTCTACGTGGTGGGCGGGCACACGGCGGCCACGGGCTGCCTCATAATTGGGACAGCCCTAAGCCTTCTTATCCGAGCAGAACTTAGTCAACCCGGTGCTCTACTAGGTGATGACCAAATTTATAATGTTATCGTTACAGCACATGCCTTTGTAATAATCTTCTTTATAGTAATACCAATTATAATTGGCGGGTTTGGTAACTGACTAATCCCTCTAATAATCGGGGCCCCTGATATGGCATTTCCCCGCATAAATAATATAAGCTTCTGACTCCTCCCTCCCTCCTTCCTTCTCCTTCTTGCTTCCTCAGGAGTTGAAGCCGGGGCCGGAACAGGATGAACAGTTTATCCTCCCCTCGCCAGCAACCTAGCTCACGCAGGAGCCTCCGTCGACCTAACCATCTTTTCCCTCCATCTCGCAGGTGTCTCCTCAATCCTCGGGGCAATTAACTTCATTACCACAATTATTAATATAAAACCCCCTGCTACCTCTCAGTACCAAACCCCACTTTTCGTGTGAGCCGTTCTTGTAACAGCCATTCTCTTACTCCTTTCCCTCCCAGTCTTAGCTGCCGGAATTACCATGCTCCTAACCGACCGAAACCTGAACACAACATTCTTCGACCCTGCCGGGGGAGGAGACCCTATTCTCTACCAACATCTCTTCTGATTCTTCGGACATCCAGAAGTTTATATTCTAATTCTCCCAGGTTTTGGTATGATCTCTCACATTGTTGCCTTCTACTCAGGCAAAAAAGAACCCTTCGGATACATGGGAATAGTCTGAGCTATAATAGCCATTGGATTACTAGGTTTTATTGTCTGAGCACATCATATGTTTACAGTTGGTATAGACGTAGACACCCGAGCTTAC
181
Margrethia obtusirostra AAGGCTGTGCGGTTCTCCTTCACCGTCATGTCTGTCTCCGTCCAGGCCGAGGGGGAGGATGAGGCCATCACCATCTTCAGGGAGTCCAAGCCAAACTCTGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTCGTGGATGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCCGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTCAGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGATGAGAAGATGGTGCGTGACCTGGAGGGCCTGGAGGCCTCAGGCTCCACATACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCGCCCACAACATGGTGCTTCACTCCATCACCCGCAGCCACGACGAGAACGCGGAGCGCTACGAGATCTGGAGGACCAATCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCTCTACACTGTGACATCGGTAACGCCACCGAGTTCTACAAGATCTTCCAGGAYGAGATCGGCGAGGTGCACCGCAGG------CCCAACCCCAGCCGGGAGGAGCGCCGGAGCTGGCGGGCCGCTCTGGACAAGCAGCTGCGGAGGAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCAGGGAGGCGGCAGAGGTGGTGTGTGAGCTGGTCCCCTCGGAACAGCGGCGCGAGGCCCTCAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTGGCCAGCATCGCTGCAGTTCCCGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCTAAAACACTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCGGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGATAGCGCATTCGATGTGCTTGGCTTTACACCAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCCTTCCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGGCAGGGTGTAGACCAAGTCTATTACTCCCTTGGTNNNNNNNNNNNNNNNNNNNNNCTGCACCCCACCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGCACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCACCATCTGCAAGACGGAGGACTTCCTCCAGCTCCCCAAGGACATGGTGGTGCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGCCACTCCCACCTGGCCGAGCTGCTGCGGACAGTGCGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAATGTGTCCACGGAGGAGCTGATCAACGCCCAGGTCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGACGGTGTGGTGAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGGCAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGGGGGAGGGGCTCGGAGAACGGCGTGTCCAAGGACGTGTGGGTGTACGACACCGTCCAGGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTTGGCCATGGCTCGGCCGAGCTGAAACACTGCCTCTACGTGGTGGGAGGGCACACCGCAGCCACGGGCTGCCTGATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCAGAGTTAAATCAACCCGGTGCCCTCCTAGGCGACGACCAAATTTATAACGTTATTGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTGATACCAATCATGATTGGTGGCTTCGGAAATTGACTAATTCCCCTTATGATCGGAGCCCCTGACATAGCCTTCCCTCGAATAAACAACATAAGTTTCTGACTTCTCCCTCCCTCCTTTCTCCTCCTACTGGCCTCTGCAGGAGTTGAAGCCGGTGCCGGAACAGGGTGAACGGTCTACCCTCCCCTTGCCGGTAACTTAGCCCACGCAGGAGCATCTGTTGATCTCACCATCTTCTCCCTACATCTTGCAGGTGTCTCTTCAATTCTTGGGGCAATTAACTTTATCACAACAATTATTAACATGAAGCCCCCAGCCATCTCCCAATATCAAACGCCCCTCTTCGTTTGAGCTGTTCTTATTACTGCTGTCCTCCTTCTCTTGTCCCTTCCAGTACTAGCTGCTGGGATCACTATACTCCTCACAGATCGAAACCTAAACACAACCTTCTTCGACCCTGCCGGGGGAGGAGACCCCATCCTCTACCAACATCTCTTCTGATTCTTCGGACACCCCGAAGTATACATTTTGATTCTTCCAGGCTTTGGCATGATCTCCCACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTCGGCTACATGGGCATGGTCTGAGCCATGATGGCCATCGGACTTCTAGGCTTTATTGTCTGAGCCCACCATATGTTCACAGTCGGAATAGATGTGGACACCCGAGCCTAC Maurolicus australis
182
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183
Maurolicus weitzmani AAGGCTGTGCGGTTCTCCTTCACCATCATGTCTGTGTCTGTCCAAGCTGAGGATGAGGATGMGGCTGTTACTGTCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTCTGTCTGATGTTTGTGGATGAGTCTGATCATGAGACGCTGACAGGCATCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATTCTGTCTCTGGGAGGTCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGACGAAAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCCGGTTCCACATACATCTGCACTCTCTGTGACTCCACCCGGGCAGAAGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCACAACGAGAACCTGGAGCGCTATGAGATCTGGAGAACCAACCCCTACTCGGAGTCTGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAAATATTTCAAGATGAGATCGGGGAGGTGTACCGGAGG------CCGAACCCAAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAA GCTGAAGCTGAGACCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGTGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACATCCAAATGAAGCCTGTGNNNNNNAAGACTGTCAACACCAAGAGAGTTATCCAGTACYTTGCAAGCATTRCTGCAGTTGCTGGAGCA------AAGAGGGACACCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACTTTGAGAAATGACAACTCATCACGTTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGCGGCAAGCTGGCCTCTGCAGACATAGAGACTTACCTCCTTGAAAAGTCACGTGTCACCTTTCAGCTCAAATCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCTGAGCTGTTGGACATGCTTCTAATCACCAATAATCCATATGACTACTGCTATATCTCCCAAGGAGAGGTAACAGTGGCATCCATCAATGAYTCTGAGGAGTTGATAGCCACTGACAGTGCATTTGATGTGCTCGGCTTCACTCCAGATGAGAAAATGGGRATCTACAAGTTGACAGGTGCAATCATGCATTTCGGCAACATGMAGTTCAAGAATAAGCAGCGMGAGGAGCAAGCAGAGCCTGAYGGCACAGAGSCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTGAAGGTGGGCAATGAGTATGTCACTAAGGGGCAGGGTGTGGACCARGTCTACTACTCCATTGGTGCACTGGCTNNNNNNNNNNNNCTGCATCCATCCAACTGCCTCGGGATGCTTCTTCTCTCGGACGCCCATCAGTGTACCAAGTTGTCTGAGCTGTCCTGGTGCATGTGCCTCAGCAATTTTCCTGCCATTTGCAAGACGGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGATGAGCGGCTGGTCTATGAGGCTGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGACACTGCCACCTGCCGGAKCTGCTGAAAACCGTTCGTTTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAATGTCTCCACAGAAGAGCTGATAAACGGCCAGACCAAGAGCAAAGAACTTGTGGACGAGGCCATCCGCTGCAAGCTGAGGATTCTGCAGAATGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCACGCTCTCTTCCTGCTGGGTGGACAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATAATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGTGCCATTGGATGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGACGTTTGGGTCTATGATACGTCTCACGAGGAGTGGTCAAAGGCGGCTCCTATGCTCATCGCCCGGTTTGGCCATGGTTCTGCAGAACTCAAACACTGCCTCTACGTGGTGGGTGGACACACAGCCGGAACAGGCTGTCTCATAGTCGGCACAGCCCTAAGCCTGCTCATTCGAGCAGAACTCAGCCAGCCCGGAGCTCTCCTGGGCGACGACCARATCTACAACGTACTGGTCACAGCTCACGCCTTCGTAATAATTTTCTTTATAGTCATGCCTATTATAATTGGAGGCTTTGGGAACTGACTAATTCCCCTAATGATCGGGGCCCCAGACATAGCCTTTCCTCGAATAAACAACATAAGCTTCTGACTCCTGCCGCCCTCCTTCCTTCTCCTTTTAGCCTCCTCCGGGGTTGAAGCAGGCGCAGGAACTGGGTGAACCGTTTACCCTCCTCTTGCTAGCAACTTGGCCCACGCAGGGGCCTCTGTCGACCTTACCATTTTCTCGCTCCATCTCGCAGGTATTTCCTCAATCCTTGGAGCAATTAATTTTATTACCACTATTATTAACATAAAGCCCCCTGCTATCTCCCAATACCAAACACCTCTATTTGTCTGAGCCGTCCTCATTACTGCTGTTCTCCTCTTACTCTCCCTCCCCGTCCTAGCAGCCGGAATTACMATGCTCCTTACGGACCGAAACCTAAACACAACCTTCTTTGACCCTGCCGGAGGAGGAGACCCCATCCTCTACCAACACCTTTTCTGATTCTTCGGGCACCCAGAAGTCTACATCCTAATCCTCCCAGGCTTCGGCATAATCTCCCACATCGTTGCCTATTATTCAGGGAAAAAAGAACCCTTCGGATACATGGGCATGGTGTGAGCTATAATAGCAATTGGCCTCTTAGGCTTTATCGTATGAGCTCACCATATGTTTACAGTCGGAATAGACGTGGACACCCGAGCCTAC
184
Valenciennellus tripunctulatus NNNNNNNNNNNNTTCTCTTTCACCATTATGTCCATCTCTGTGACGCCGGATGGAARGCAGGAGGCGGTCACCATCTTCACGGAGCCSAAGCCCAACTCCGAGCTGTCCTGTAAGCCCMTGTGYCTGATGTTTGTGGATGAGTCGGACCACGAGATGCTCACTGCCGTCYTGGGGCCCGTGGTCGCAGAGCGGACGGCKATGACGGACAGCCGACTCATCCTGTCYATGGGTGGCCTCCCYCGCTCGTTCCGCTTCTACTTCAGAGGCACAGGCTATGATGAGAAGATGGTGCGYGAGATGGAGGGCCTGGAGGCATCAGGCTCTACCTATGTCTGCACTCTGTGYGACTCCACCCGGGCRGAGGCCTCYCACAACATGGTGCTCCATTCCATCACCCGCAGCCACRRYGAGAACCTGGAGCGCTACGAGATATGGMGGAGCAACCCCTTTTCGGAGTCNGTCGAKGAGCTGCGRGATCGGGTGAARGGGGTCTCCGCCAAGCCCTTCATGGARACYCAGCCCACYCTGGATGCNTTGCACTGTGACATYGGTAACGCCACNGAGTTCTACAAAATCTTYCARGATGAGATCGGGGAGGTGTTCCAGAAG------SCCAACCCCAGCCGSGAGGAACGGCGANGCTGGAGGGCTGCYCTSGACAAGCAGCTGAGGAAAAA ACTCAAGCTCAAGCCRGTGATGAGGATGAATGGGAACTACGCCCGGAGGCTGATGTCCGAGGAGRCCGTGGASGTGGTGTGCGAACTGGTGCCCTCAGARGAAAGGCGGGAGGCTCTGAGGGAGCTRATGGGGCTTTACCTCCAGATGAAACCTGTGTGGCGNAAGACTGTCAACACCAAGAGGGTTATCCAGTACTTAGCCAGCATCGCTGCAGTTCCCGGCGCA------AAGCGTGACCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCGCGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCTTCCGCCGACATAGAGACATATCTTCTGGAGAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCGTATGACTACTCCTACATCTCCCAAGGAGAGGTAACCGTAGCATCCATTAATGATTCTGAGGAGCTTATGGCCACTGATAGTGCATTCGACGTGCTCGGCTTTACTCAAGAGGAGAAGAACGGAGTCTACAAGTTGACCGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACMGAGGCTGCAGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTCGTGAAAGGACTCTGCCATCCCAGGGTGAAGGTCGGCAATGAGTACGTCACTAAAGGSCAGGGAGTAGACCAAGTCTACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGTGCCAAGCTGTCCGAGCTGTCCTGGGGGATGTGCCTGGCCAACTTTCCTGCCATTTGCAAGACGGAGGACTTCCTGCAGCTGCCCAAAGACATGGTGGTGCAGCTGCTGTCTCACGAGGAGCTGGAGACGGAGGATGAACGGCTGGTGTACGAGGCGGCGCTCAACTGGGTGAACTACGACCTGGAGAGGCGGCACTGCCACCTGTCAGAGCTGCTGAGCACGGTGCGGCTGGCACTTCTGCCCGCCATTTTCCTCATGGAGAACGTGTCGACAGAAGAGCTAATTAACGCCCAGGCGAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGAGGGGGTGGTGAACAGCCCATGTGCCCGGCCCAGAAAGACCAGCCACGCCCTCTTCCTGCTGGGAGGGCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCTCCCCCAGGAAGGAGTTTTCGGCCTGCGCCATCGGCTGCAAGGTGTACATSACAGGCGGAGGAGGCTCAGAGAACGGAGTGTCCAAGGACGTGTGGTTGTAYGAYACAGTCCAGGAGGAGTGGTCCAAGGCAGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATAATTGGTACTGCTCTTAGCCTGCTAATCCGAGCAGAACTGAGCCAGCCCGGCGCCCTCCTAGGAGACGACCAAATTTATAACGTTATCGTAACAGCCCACGCCTTCGTAATAATTTTCTTCATAGTAATACCGCTCATAATTGGCGGTTTCGGAAACTGACTAATCCCCCTTATAATCGGAGCCCCTGATATAGCCTTCCCCCGAATAAATAACATAAGCTTCTGACTCCTCCCACCCTCTTTTCTCCTTCTTCTCTCTTCCTCCGCAGTAGAAGCTGGGGCTGGGACTGGTTGGACTGTCTACCCTCCTCTTGCCGGCAACCTAGCCCATGCAGGAGCTTCAGTTGATCTAGCTATTTTCTCTCTTCACCTTGCAGGTATTTCATCTATTCTTGGGGCAATTAACTTTATTACCACAATTATTAATATAAAACCCCCAGCAATCTCCCAATACCAGACGCCACTCTTCGTCTGAGCTGTCCTTGTTACCGCTGTACTTCTCCTACTCTCCTTACCTGTTCTAGCTGCTGGAATTACAATACTACTTACAGATCGAAACCTAAACACAACTTTCTTCGACCCTGCAGGAGGAGGTGATCCTATTCTGTACCAACACCTCTTCTGATTCTTCGGACACCCAGAGGTGTATATTCTCATTCTTCCCGGGTTCGGTATAATCTCCCACATCGTCGCCTACTACTCAGGCAAGAAAGAACCCTTCGGCTATATAGGAATGGTATGAGCTATAATAGCCATCGGCCTACTAGGCTTCATCGTATGAGCCCACCACATATTCACTGTCGGAATGGATGTAGACACACGAGCCTAC
185
Argyropelecus aculeatus AAGGCTGTGCGGTTCTCCTTCACCATCATGTCTGTGTCTGTCCAAGCTGAGGATGAGGATGAGGCTGTTACTGTCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTCTGTCTGATGTTTGTGGATGAGTCTGATCATGAGACGCTGACAGGCATCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATTCTGTCTCTGGGAGGTCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGACGAAAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCCGGTTCCACATACATCTGCACTCTCTGTGACTCCACCCGGGCAGAAGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCACAACGAGAACCTGGAGCGCTATGAGATCTGGAGAACCAACCCCTACTCGGAGTCTGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAAATATTTCAAGATGAGATCGGGGAGGTGTACCGGAGG------CCGAACCCAAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAGGAA GCTGAAGCTGAGACCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGTGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACATCCAAATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAAAGAGTTATCCAGTACTTAGCCAGCATTGCCGCAGTTCCTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAAGCCAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATCCGCATTCACTTCGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAGAAGTCACGCGTCACCTTTCAGCTCAAGGCGGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCCTAYGACTACTGCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCAGAGGAGTTGATAGCCACTGACAGTGCATTTGATGTGCTYGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCGATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGYGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCTGCTGACAAGGCCGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGTCATCCCAGGGTGAAGGTCGGTAATGAGTTTGTCACTAAAGGGCAGGGTGTTGACCAAGTCAACTACGCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACTCTTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGTCTCAGCAACTTTCCTGCCATTTGCAAGACCGAGGACTTCCTCCAATTGCCCAAAGACATGGTGGTGCAGCTGCTGTCTCATGAGGAGCTAGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTYGACTGGGTCAACTAYGACCTGGAGAGGCGCCACTGCCACCTGCCGGATCTGCTGAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTGTCCACAGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGCAAGACTAGCCATGCTCTATTCTTGCTTGGTGGACAGACCTTCATGTGTGACAAACTGTACTTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCTAGCCCCAGGAAGGAGTTCAGTGCCTGTGCCATCGGTTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGATGTGTGGGTGTACGACACGTCCCAGGAGGAGTGGTCCAAGGCGGCTCCCATGCTCATCGCCCGATTCGGCCATGGTTCTGCAGAACTGAAACACTGCCTCTATGTGGTGGAAGGACACACGGCCGGCACAGGCTGCNNNATGGTCGGCACTGCATTAAGCCTRCTAATCCGWGCTGAACTAAGCCAACCTGGCGCCCTTCTKGGAGATGATCAAATTTACAATGTTATTGTTACAGCACATGCSTTTGTAATAATTTTCTTTATAGTAATACCAGTAATAATTGGTGGATTCGGCAACTGACTTGTACCCCTAATGATCGGAGCCCCAGACATGGCATTCCCTCGAATAAATAACATAAGCTTCTGACTCCTCCCCCCCTCATTTCTTTTACTACTGGCATCCTCTGGGGTAGAAGCMGGAGCTGGGACAGGTTGAACTGTATACCCCCCTCTAKCCGGAAACTTGGCCCACGCTGGAGCATCAGTTGACTTAACAATTTTCTCACTTCACCTTGCAGGGATCTCATCAATTCTMGGGGCAATTAACTTTATCACCACAATCATTAATATGAAACCGCCTGCCATTACCCAGTATCAAACCCCTTTATTCGTGTGATCTGTCCTAGTGACTGCAGTACTACTTCTGCTCTCTCTGCCAGTTCTCGCTGCAGGAATCACAATACTTCTAACCGATCGAAACCTAAACACAACATTCTTTGACCCTGCAGGAGGAGGAGACCCAATCCTGTACCAACACCTTTTCTGATTCTTTGGTCACCCAGAAGTGTACATYTTAATTTTACCCGGATTTGGAATAATCTCCCACATCGTCGCCTATTATTCAGGWAAAAAAGAACCMTTCGGCTACATRGGAATGGTCTGAGCAATGATGGCTATCGGACTCCTAGGATTTATCGTATGAGCACATCACATATTCACAGTGGGAATAGACGTAGACACTCGTNNNNNN
186
Argyropelecus gigas AAGGCTGTGCGGTTCTCCTTCACCATCATGTCTGTGTCTGTCCAGGCTGAGGATGAGGATGAGGCTGTTACTGTCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCGTGCAAGCCTCTCTGTCTGATGTTTGTGGACGAGTCTGATCATGAGACGCTGACAGGCATCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATTCTGTCTCTGGGAGGTCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGTACAGGCTATGACGAAAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGTTCCACATACATCTGCACTCTCTGTGACTCCACCCGGGCAGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCACGACGAGAACCTGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCTGAGTCCGCAGATGAGCTTCGGGATCGGGTGAAAGGAGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATATTTCAGGATGAGATCGGGGAGGTGTACCGGAGG------CCGAACCCAAGCAGGGAGGAGCGCCGGAGCTGGAGGGCTGCTCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGGGGTGGAGGTGGTGTGTGAGCTGGTCCCCTCAGAACAGCGACAGGAGGCCCTCAGGGAACTGATGGGGCTCTACATCCAAATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACCTTGCCAGCATTGCCGCAGTTCCTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAAGCCAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATTCGCATTCACTTCGGAACCAATGGCAAGTTATCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCCTACGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCGTCCATCAATGATTCAGAGGAGTTGATAGCCACTGACAGTGCATTTGACGTGCTCGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCGATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAACCTGATGGCACTGAGGCTGCTGACAAGGCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTATGTCATCCCAGGGTGAAGGTCGGTAATGAGTTTGTCACTAAGGGGCAGGGTGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACTCGTCCAACTGTCTGGGAATGCTGCTTCTGTCAGACGCCCATCAGTGTACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGCAAGACCGAGGACTTCCTCCAGTTTCCCAAAGACATGGYGGTCCAGCTGCTGTCTCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCTGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACCTGCCGGAGCTGCTGAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTSTCCACAGAGGAGCTGATCAATGCCCAGRCCAAGAGCAAGGAGTTGGTGGAYGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGCCCCAGCAAGACCAGYCAYGCTCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGTGAYAAACTSTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCTAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGTTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTGTGGGTGTACGATACGTCCCAGGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCTCGATTCGGCCATGGTTCAGCAGAACTCAAACACTGCCTCTACGTGGTGGGAGGACACACGGCCGGCACAGGCTGCCTCATGGTCGGCACAGCCTTAAGCCTACTTATCCGGGCAGAACTAAGCCAACCCGGCACCCTCATAGGTGATGACCAAATCTACAATGTTCTCGTTACAGCACATGCTTTCGTAATGATTTTCTTCATGGTAATACCTATTATAATTGGGGGCTTCGGAAACTGACTAGTCCCATTAATAATTGGCGCCCCTGACATAGCATTTCCACGAATAAACAATATAAGCTTCTGACTCCTCCCCCCATCTTTCCTTCTTCTCCTTGCCTCCTCAGGCGTTGAAGCTGGGGCCGGGACAGGGTGAACTGTTTACCCCCCTCTTTCCAGCAACTTAGCACATGCAGGCGCCTCAGTAGACTTAACTATCTTCTCCCTACATCTCGCAGGCATCTCTTCCATTCTAGGAGCAATCAACTTTATTACTACAATTATCAACATAAAACCTCCAGCCATCTCTCAATACCAAACACCTCTTTTCGTGTGATCAGTTCTTGTAACTGCTGTACTTCTTCTCCTTTCCTTACCAGTCCTAGCTGCCGGTATTACAATACTTTTAACTGACCGAAACCTAAACACAACATTCTTTGACCCCGCAGGAGGAGGAGACCCCATCTTATACCAACACCTTTTCTGGTTCTTTGGACACCCAGAAGTCTATATTCTCATCCTACCAGGCTTTGGCATAATCTCTCACATTGTTGCATACTACTCAGGAAAGAAAGAACCCTTTGGGTATATAGGAATAGTCTGAGCTATAATAGCCATTGGCCTCCTAGGCTTTATTGTATGAGCCCACCACATATTTACAGTAGGGATAGATGTAGATACCCGAGCTTAC
187
Argyropelecus sladeni AAGGCTGTGCGGTTCTCCTTCACCATCATGTCCATCTCTGTCCAGGCTGACGATGAGGATGAGGCTGTCACTGTCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCTTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCAGATCATGAGACACTAACGGGCGTCCTCGGGCCTGTGGTGGCCGAGAGGGATGCCATGAAGAACAGCCGCCTGATCCTGTCTCTGGGAAGCCTCCCTCGATCCTTTCGCTTTCACTTCAGGGGTACAGGGTAYGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACATACATCTGCACTCTCTGTGACTCCACACGGGCAGAGGCCTCGCACAACATGGTGCTTCACTCTGTTACTCGCAGCCAYGACGAGAACATGGAGCGCTAYGAGATCTGGAGGACCAACCCCTATTCCGAGTCGGCGGATGAGCTCCGGAATCGGGTGAAAGGTGTCTCTGCCAAACCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCAGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGAGCTGGCGGACAGCTCTGGACAAGCAGNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGACTGTCAACACCAAGAGAGTTATCCAGTACCTTGCCAGCATTGCCGCAGTTCCTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAAGCCAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGCAAATTCATTCGCATTCATTTCGGAACCAGTGGCAAGTTATCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCCTACGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCGTCCATCAATGATTCAGAGGAGTTGATAGCCACTGACAGTGCATTTGACGTGCTCGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCGATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAACCTGATGGCACTGAGGCTGCTGACAAGGTAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGTCATCCCAGGGTGAAGGTCGGTAATGAGTTTGTCACTAAAGGGCAGAGTGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTNNNNNNNNNAACCTGCACTCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGACGCCCATCAGTGTACCAAGCTGTCTGAGCTGTCTAGGGGCATGTGCTTCAGCAACTTTCCCGCCATTTGCAAGACCGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAGCTGCTGTCTCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTTAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACCTGCCGGAGCTGCTGAGAACTGTTCGTCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAATGTCTCCACAGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGTTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCACGCTCTCTTCCTGCTGGGTGGGCAGACCTTCATGTGTGATAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCTAGCCCCAGGAAGGAGTTCAGCGCCTGCGCAATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCCTGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGATTCGGCCATGGTTCCGCAGAACTCAAACACTGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTAAGCTTACTCATCCGAGCAGAGCTAAGCCAACCTGGCGCTCTCCTGGGAGACGACCAAATTTATAACGTAATCGTTACTGCGCACGCTTTCGTAATAATTTTCTTTATAGTAATGCCAATTATGATCGGGGGGTTTGGAAACTGACTCATCCCCTTAATGATTGGAGCCCCCGATATAGCATTCCCTCGAATAAACAACATAAGCTTTTGACTCCTCCCCCCTTCCTTTCTGCTTCTCCTCGCCTCTTCAGGTGTAGAAGCCGGGGCAGGGACHGGGTGAACCGTGTACCCCCCTCTAGCCGGCAATCTGGCCCATGCCGGAGCATCTGTTGACCTAACCATCTTCTCACTCCACCTAGCAGGTATCTCCTCAATTCTAGGAGCTATCAACTTTATCACCACCATTATTAACATGAAACCTCCAGCAATSTCTCAGTACCAGATCCCCCTATTTGTATGAGCTGTTTTAATCACTGCWGTCCTYCTCCTTCTATCCCTTCCAGTCTTAGCCGCTGGGATCACAATGTTCCTAACAGACCGAAACCTAAACACAACCTTCTTTGACCCAGCCGGAGGAGGTGACCCCATYCTTTATCAACACCTATTCTGGTTCTTYGGCCACCCAGAAGTATACATTCTCATTCTTCCAGGCTTTGGRATGATTTCCCACATTGTTGCGTACTACTCAGGTAAGAAAGAACCCTTTGGATACATGGGCATGGTCTGAGCTATGATGGCCATTGGACTTCTAGGGTTCATCGTATGAGCTCATCACATGTTTACAGTCGGGATGGACGTGGACACCCGAGCATAC
188
Polyipnus clarus AAGGCAGTGCGGTTCTCCTTCACCGTCATGTCTGTCTCGGTCCAGGCGGAGGGGGAGGACGAGGCCGTCACCATCTTCAGGGAGGCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTTGTGGACGAGTCTGATCACGAGACGCTGACGGGCGTCCTTGGGCCCGTGGTGGCGGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTTAGGGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCTTGGAGGCCTCTGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCKCCCACAACATGGTGCTTCACTCCATCACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCYGCGGACGAGCTCCGGGATCGGGTGAAAGGCGTCTCCGCCAAGCCCTTCTTGGAGACCCAGGCCACCCTGGACGCTCTGCACTGTGACATCGGCAATGCCACCGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTATACCGGAGG------CCCAACCCGAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTAGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACARCGGCAAGAGGCCCTCCGGGAGCTGATGGGGCTTTACATCCAAATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACCTTGCCAGCATTGCTGCAGTTCCCGGAGCA------AAGAGGGACCCCAGCAAGGGAACCTTGGAAGATCAAATCA TCCAAGCCAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCGCGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATTTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCAGAGGAGTTGATGGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGATGACAGGTGCAATCATGCATTTCGGCAACATGAAGTTCAAGCAAAAACAGCGCGAGGAGCAAGCAGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTCTGCCATCCCAGGGTTAAGGTCGGCAATGAATTTGTCACTAAAGGGCAGGGTGTGGACCAAGTCTACTACTCCCTTGGTGCACTNNNNCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTGTCAGACGCCCATCAGTGTACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGCAAGACTGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAGGCTGGTCTATGAAGCCGCCCTAAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGYTACTTGCCAGAGCTGCTGAGAACCGTTCGCCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAATGTCTCCACAGAGGAGCTGATCAACGCCCAGACCAAGAGTAAGGAGCTGGTGGACGAGGCTATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCATGCTCTCTTCCTGCTGGGTGGGCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGGAAGGAGTTCAGTGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGAGGCTCTGAGAATGGGGTCTCCAAAGATGTTTGGGTSTACGATACGTCCCATGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGATTCGGCCATGGTTCTGCAGAACTCAAACACTGTCTCTATGTGGTAGGTGGACACACTGCCGGCACTGGCTGCCTNATAGTCGGCACAGCCTTGAGCTTGCTCATCCGGGCGGAATTAAGCCAACCGGGCGCGCTCTTAGGCGACGATCAAATCTACAATGTTTTAGTAACAGCACATGCATTCGTAATAATTTTCTTCATAGTTATACCCATCATGATCGGCGGTTTCGGGAACTGGCTCATCCCCCTCATGATCGGAGCCCCCGATATGGCTTTCCCTCGAATAAATAATATAAGCTTCTGGCTTCTACCCCCTTCTTTCCTCCTCCTCCTTGCCTCTTCAGGTGTTGAGGCCGGGGCTGGAACAGGCTGAACCGTTTACCCACCTCTCGCTGGAAATTTGGCCCACGCCGGAGCTTCCGTGGACCTCACTATTTTCTCCCTTCATCTCGCAGGCATTTCTTCCATTCTAGGGGCTATTAACTTTATTACTACAATTATTAACATGAAGCCCCCAGCTATCTCGCAATACCAGACACCCCTCTTCGTGTGAGCTGTTCTTGTCACCGCTGTCCTCCTCCTTCTTTCTCTCCCTGTTTTAGCGGCTGGGATTACAATACTTCTTACAGACCGAAACCTAAACACAACCTTCTTCGACCCCGCAGGAGGGGGTGACCCCATTCTTTATCAACACCTTTTCTGATTCTTTGGCCACCCAGAAGTATACATCCTTATTTTACCAGGCTTCGGCATGATCTCCCATATTGTTGCCTATTATTCAGGTAAAAAAGAGCCTTTCGGGTATATAGGAATAGTTTGAGCTATAATAGCAATCGGGCTCCTAGGCTTTATTGTCTGAGCCCACCACATGTTTACCGTCGGCATAGATNNNNNNNNNNNNNNNNNN
189
Polyipnus kiwiensis AAGGCCGTGCGGTTCTCCTTCACCGTCATGTCKGTCTCGGTCCAGGCTGAGGGGGAGGATGAGGCCGTCACCATCTTCAGGGAGACCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGCGTCCTCGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTTCGATCCCTCCGCTTCCACTTCAGGGGTACAGGCTACGACGAGAAGATGGTGCGYGAGATGGAGGGCTTGGAGGCCTCCGGCTCCACATACGTCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATAACCCGCAGCCACGAAGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCGGCGGAAGAGCTCCGGGATCGGGTGAAAGGCGTCTCCGCCAAACCCTTCATGGAGACCCGGGCCACCCTGGACGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGCGAGGTGTACCGGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGAGCTGGCGTGCTGCTCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGACTGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCAGGAGGCCCTCCGGGAGCTGATGGGGCTTTACCTCCAAATGAAGCCGGTGTGGCGC????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGACGCCCATCAGTGTACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGCAAGACTGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAAGCTGCCCTTAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACTTGCCAGAGCTGCTGAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCACGGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCACGCTCTCTTCCTGCTGGGTGGGCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGGAAGGAGTTCAGTGCCTGCGCCATCGGATGCAAGGTCTACATCACCGGAGGCAGAGGCTCTGAGAATGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCATGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCTCGGTTCGGCCATGGTTCTGCAGAACTCAAACACTGCCTCTACGTGGTAGGTGGACACACTGCCGGCACNNNNNNNNNNATAGTCGGTACGGCCCTAAGCCTGCTTATTCGAGCAGAACTGAGCCAACCCGGTGCCCTTCTAGGCGACGACCAAATCTACAATGTGCTGGTCACCGCACACGCTTTTGTCATAATTTTCTTTATAGTAATACCCATTATAATTGGAGGCTTTGGAAACTGACTTATCCCCTTAATGATCGGAGCCCCTGATATGGCCTTCCCCCGAATGAATAATATAAGCTTCTGACTCCTCCCTCCCTCCTTTCTCCTCTTACTTGCCTCCTCAGGAGTAGAGGCAGGCGCCGGAACTGGCTGAACCGTTTACCCTCCTCTCGCTGGTAATTTGGCCCATGCTGGAGCCTCTGTAGACCTGACTATTTTTTCCCTCCACCTCGCAGGGATCTCCTCCATCCTAGGTGCAATTAACTTTATCACAACTATTATTAATATAAAACCCCCAGCTATCTCCCAATATCAAACACCCTTGTTTGTATGAGCTGTTCTTGTCACCGCCGTCCTCCTCCTCCTCTCCCTTCCTGTCCTAGCTGCCGGTATTACAATACTTCTTACAGACCGAAACCTAAACACAACTTTCTTTGACCCCGCAGGGGGTGGAGACCCCATCCTTTATCAACATCTTTTCTGATTCTTCGGTCACCCAGAAGTATACATCCTCATCTTACCAGGCTTCGGCATAATCTCCCATATCGTTGCCTACTACTCAGGGAAGAAAGAACCCTTCGGGTATATGGGCATGGTCTGAGCTATGATAGCAATCGGGCTTCTTGGTTTTATCGTCTGAGCCCACCACATGTTTACAGTTGGAATAGATGTAGACACCCGAGCCTAC
190
Sternoptyx obscura AAGGCTGTGCGGTTCTCCTTCACCATCATGTCCATCTCTGTCCAGGTCGACGGTGAGGACGAGGCTGTCACCGTCTTCAGGGAGCCCAAGCCCAACTCTGAACTGTCTTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCAGATCATGAGACACTGACGGGCGTCCTCGGGCCTGTGGTGGCCGAGAGGGATGCCATGAAGAACAGCCGCCTGATCCTGTCTCTGGGAAGCCTCCCTCGATCCTTTCGCTTTCACTTCAGGGGTACAGGGTACGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACACGGGCAGAGGCCTCGCACAACATGGTGCTTCACTCTGTTACCCGCAGCCACGACGAGAACAAGGAGCGCTACGAGATCTGGAGGACCAACCCCTATTCCGAGTCGGCGGAAGAGCTCCGGAATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCAGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGGGTTGGCGGACAGCTTTGGACAAGCAACTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTACGCCCGACGGCTGATGACCTGCGAGGCGGTGGAGGTTGTGTGTGAGCTTGTCCCCTCTGAACAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACGTCCAAATGAAGCCTGTATGGCGT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CTGGAGAGGAACCTCCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGACGCCCACCAGTGTGCCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCAATCTGCAAGACCGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAACTGCTGTCTCACGAGGAGCTGGAGACCGAGGACGAGAGACTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGTCACTGCCATTTGCCGGAGCTGCTGAGAACCGTCCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATTCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGTGTGGTCAACAGCCCACTGGCCCGGCCCAGGAAGACCAGCCACGCTCTCTTCCTGCTGGGCGGCCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGAGGCTCCGAGAACGGCGTGTCCAAAGACGTCTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGGTTCGGCCACGGATCCGCGGAACTCAAACACTGCCTCTATGTAGTGGGCGGACATACGGCCGGCACGGGCTGCCTCATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCAGAGTTAAGTCAACCCGGTGCCCTCCTAGGCGACGACCAAATTTATAACGTTATTGTTACTGCACATGCCTTCGTAATAATTTTCTTTATAGTGATACCCCTCATGATTGGTGGCTTCGGAAATTGACTAATTCCCCTTATGATTGGAGCCCCCGACATAGCCTTCCCTCGAATAAACAACATAAGTTTCTGACTTCTCCCTCCCTCCTTTCTCCTCCTACTGGCCTCTGCAGGAGTTGAAGCCGGTGCCGGAACAGGGTGAACGGTCTACCCTCCCCTTGCCGGYAACTTAGCCCACGCAGGAGCATCTGTAGATCTCACCATCTTCTCCCTACATCTAGCAGGTGTCTCTTCAATTCTTGGGGCAATTAACTTTATCACCACAATTATTAACATGAAGCCCCCAGCCATCTCCCAATATCAAACGCCCCTCTTTGTTTGAGCTGTTCTTATTACTGCTGTCCTCCTTCTCCTGTCCCTTCCAGTACTAGCTGCTGGGATCACTATACTCCTCACAGATCGAAACCTAAACACAACCTTCTTTGACCCTGCCGGGGGAGGAGACCCCATCCTCTACCAACATCTGTTCTGATTCTTCGGACACCCAGAAGTATACATTCTGATTCTTCCAGGCTTTGGCATGATCTCCCACATTGTTGCCTACTACTCAGGGAAAAAAGAACCCTTCGGGTACATGGGCATGGTCTGAGCCATGATGGCCATCGGACTTCTAGGCTTTATTGTCTGAGCCCACCATATGTTCACAGTCGGAATAGATGTGGACACCCGAGCCTAC
191
Sternoptyx pseudobscura AAGGCTGTGCGGTTCTCCTTCACCATCATGTCCATCTCTGTCCAGGTTGACGGTGAGGACRAGGCTGTCACYGTCTTCAGGGAGCCCAAGCCCAACTCTGAACTGTCTTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCAGATCATGAGACACTRACGGGCGTCCTCGGGCCTGTGGTGGCCGAGAGGGATGCCATGAAGAACAGCCRCCTGATCCTGTCTCTGGGAAGCCTCCCTCGATCCTTTCGCTTTCACTTCAGGGGTACAGGGTACGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACACGGGCAGAGGCCTCGCACAACATGGTGCTTCACTCTGTTACCCGCAGCCAYGACGAGAACAAGGAGCGCTACGAGATCTGGAGGACCAACCCCTATTCCGAGTCGGCGGAAGAGCTCCGGAATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACTCTGGACGCTCTGCACTGTGACATCGGTAATGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCAGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGGGTTGGCGGACAGCTTTGGACAAGCAACTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTACGCCMGACGGCTGATGACCTGCGAGGCGGTGGAGGTTGTGTGTGAGCTTGTCCCCTCTGAACAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACGTCCAAATGAAGCCTGTATGGCGT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????NNNNNNAGGAACCTCCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGACGCCCACCAGTGTGCCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCAATCTGCAAGACAGAGGACTTCCTGCAGTTGCCCAAAGACATGGCGGTCCAACTGCTGTCTCACGAGGAGCTGGAGACCGAGGACGAGAGACTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGTCACTGCCATTTGCCGGAGCTGCTGAGAACCGTCCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATTCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGTGTGGTCAACAGCCCACTGGCCCGGCCCAGGAAGACCAGCCACGCTCTCTTCCTGCTGGGCGGCCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGAGGCTCCGAGAACGGCGTGTCCAAAGACGTCTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGGTTCGGCCACGGATCCGCGGAACTCAAACACTGCCTCTATGTAGTGGGCGGACATACGGCCGGCACGGGCTGCCTCATAGTGGGAACAGCTTTAAGCCTACTCATCCGAGCAGAACTAAGCCAACCTGGCGCCCTTCTAGGAGACGACCAAATTTACAATGTAATTGTTACGGCCCATGCGTTTGTAATGATTTTCTTTATAGTAATGCCAATCATGATCGGAGGCTTTGGAAACTGACTCATTCCCCTAATGATTGGTGCCCCCGATATAGCATTCCCCCGAATAAATAATATGAGCTTCTGACTTCTCCCTCCCTCTTTCCTCCTACTCCTAGCTTCCTCAGGGGTAGAAGCCGGAGCTGGGACTGGCTGAACTGTTTATCCCCCACTAGCTGGTAATCTTGCCCACGCGGGAGCATCAGTAGACTTAACCATCTTTTCCCTTCACCTAGCAGGGGTTTCATCAATTCTAGGGGCTATTAACTTCATTACCACTATTATCAACATGAAACCGCCTGCAGTTTCMATATACCAAATCCCACTATTTGTCTGAGCCGTACTAATTACAGCTGTCCTTCTCCTTCTCTCTCTTCCAGTATTAGCTGCTGGAATTACAATGCTTCTCACAGATCGGAACCTAAATACTGCCTTCTTTGACCCAGCAGGAGGTGGGGATCCCATTCTTTATCAACACTTATTCTGATTCTTCGGCCACCCAGAAGTATATATTCTTATTCTTCCAGGCTTTGGAATAATCTCCCACATTGTTGCCTACTACTCTGGTAAAAAAGAACCCTTCGGGTATATAGGAATGGTTTGAGCTATGATGGCTATCGGCCTWTTAGGCTTTATTGTCTGAGCCCACCACATGTTCACTGTAGGRATGGATGTAGACACACGTGCATAC
192
Ichthyococcus ovatus AAGGCGGTGCGGTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGGGAGCACGAGGCCGTCACCGTCTTCAGGGAGTCCAAGCCCAACTCCGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGGCATCCTCGGGCCCGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCGCTGGGGGGTCTCCCTCGATCCTTCCGGTTCGACTTCAGGGGGACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGTTCCACGTACATCTGCACCCTCTGCGACTCCACGCGGGCGGACGCCGCCCGCAACATGGTGCTCCACTCCATCACCCGCAGCCACGATGAGAACACGGAGCGCTACGAGATCTGGAGGACCAACCCTTACTCCGAGTCCGCCGACGAGCTCCGGGATCGGGTGAAAGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACTCTGGACGCTCTTCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGTACCGGAGG------CCCAACCCCAGCAGGGAGGAGCGGCGGAGTTGGCGGGCCGCGTTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCGGCGAGGCGACGGAGGTGGTGTGCGAGCTGGTGCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGGGCTGTACCTCCAGATGAAGCCCGTGTGGCGCNNNNNNGTCAACACCAAGAGAGTGATCCAGTACCTTGCCAGCATCGCTGCAGTCCCAGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTAGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACATTAAGAAATGACAACTCATCACGCTTTGGAAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATCGAGACTTACCTTCTGGAGAAGTCCCGTTGTACTTTTCAGCTCAAGGCAGAGAGGAACTACCATATATTCTTCCAGATCTTGTCCGAACAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAAGAGAAAAATGGAGTCTACAAGCTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAGGCCGCGCGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTGATGGGTCTTAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTATGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCT????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????ATGGTCGGCACGGCTTTAAGCCTGCTCATCCGGGCAGAACTAAGCCAACCCGGTGCCCTTCTAGGCGACGACCAAATTTATAATGTTATCGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTAATGCCAATTATAATCGGAGGCTTCGGGAACTGACTAATTCCTCTTATGATCGGAGCCCCCGACATGGCTTTTCCCCGAATAAATAACATGAGCTTCTGACTCCTCCCCCCATCTTTCCTCCTTCTGCTTGCCTCCTCAGGAGTTGAGGCAGGGGCCGGAACAGGGTGAACAGTTTATCCCCCTCTTGCTGGCAACCTAGCTCACGCAGGCGCCTCCGTTGACCTTACTATTTTTTCCCTTCACCTTGCAGGGATTTCTTCAATTCTAGGGGCAATCAACTTTATTACCACCATTATTAATATGAAACCCCCAGCTATTTCCCAGTACCAAACACCTCTCTTTGTATGAGCCGTCCTTGTTACAGCTGTCCTCCTTCTCCTTTCCCTCCCCGTTCTAGCCGCCGGAATTACCATGCTTCTTACGGATCGTAATCTAAACACAACTTTCTTTGACCCTGCAGGAGGGGGCGACCCCATTCTGTACCAGCACCTCTTCTGATTCTTCGGCCACCCCGAAGTCTATATTTTAATTCTTCCAGGGTTCGGCATGATCTCCCATATTGTAGCCTATTACGCAGGAAAGAAAGAACCCTTTGGATATATAGGAATGGTCTGAGCTATGATGGCCATTGGTCTCTTAGGCTTCATCGTCTGAGCCCATCACATGTTTACAGTCGGAATGGACGTAGACACCCGAGCCTAC
193
Phosichthys argenteus AAGGCCGTGCGGTTCTCCTTCACCGTCATGTCCGTCTCCGTCCGGGCAGAGGGACGGGACGAGGACGTCACCGTCTTCAGGGAGCCCAAGCCCAACTCGGAGCTGTCCTGCAAGCCCCTGTGTCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTAACGGGCATCCTGGGGCCCGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCGCTGGGGGGCCTGCCGCGGTCCTTCCGCTTCCACTTCAGGGGCACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGATGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCTTACTCCGAGTCCGCGGACGAGCTCCGCGACCGGGTGAAGGGCGTCTCCGCCAAGCCCTTCATGGAGACCCAGCCCACGATGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAACCCGAGCAGGGAGGAGCGCCGCGGCTGGCGGGCCGCCCTGGACAAGCAGCTGAGGAAGAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGACCGCCGAGGCGGTGGAGGCGGTGTGCGAGCTGGTCCCCTCGGAACCGCGGCGAGAGGCCCTGAGGGAGCTGATGGGGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACAGCGAGAAATGACAACTCATCACGCTTCGGCAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACGTAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAAGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAATCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACYTGCACCCGTCCAACTGTCTGGGMATGCTGCTKCTSTCMGACGCCCATCAGTGTACCAAGCTGTCYGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTYCCCGCCATYTGCAAGACGGAGGACTTCCTSCAGTTGCCCAAAGACATGGCGGTCCAGCTGCTGTCYCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCYGCCCTCAACTGGGTCAACTACGACCTGGAGAGRCGSCACTGCCACYTGSCMGAGMTGCTGAGAACGGTTCGTCTGGCSYTGCTGCCCGCCATCTTCCTCATGGAGAACGTSTCCACGGAGGAGCTGATCAACGCCCAGRCCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGTTGCAAGCTGARGATCCTGCAGAAYGAGGGYGTGGTCAACAGCCCAYKGGCCMGGCCCMGGAAGACCAGCCACGCTCTCTTCCTGCTGGGYGGRCAGACCTTCATGTGYGACAARCTSTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCRGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACRTCACCGGRGGBAGGGGCTCKGAGAAYGGGGTRTCCAAAGAYGTGTGGGTGTACGAYACSTYCCAKGAGGAGTGGTCSAAGGCRGCTCCCATGCTCATCGCCCGGTTCGGCCAYGGCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGTCTACTCATCCGGGCAGAGTTAAGCCAACCTGGCGCCCTCCTAGGCGACGACCAGATCTACAACGTCATCGTAACAGCTCACGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGGGGTTTTGGAAACTGGCTGATCCCCTTAATGATTGGGGCCCCTGATATAGCCTTCCCCCGAATAAACAACATGAGCTTCTGACTTCTCCCTCCTTCCTTTCTTCTCCTGCTGGCCTCCTCAGGGGTTGAAGCCGGGGCCGGAACAGGATGAACCGTTTACCCCCCTCTCGCCGGCAACCTAGCCCACGCAGGGGCCTCCGTTGACCTGACCATCTTTTCCCTACATCTTGCAGGGATTTCTTCAATCCTCGGAGCAATTAACTTCATTACCACCATCATCAACATAAAACCCCCAGCTATCTCCCAATACCAGACGCCCCTCTTTGTCTGAGCCGTTCTTGTAACCGCGGTTCTTCTCCTTCTGTCCCTTCCAGTCCTAGCCGCTGGTATCACCATACTCCTAACAGACCGGAACCTAAACACAACCTTCTTTGACCCAGCAGGGGGAGGAGACCCCATCCTTTACCAGCACCTTTTCTGATTCTTTGGGCACCCCGAAGTTTATATTCTTATTCTCCCGGGCTTTGGCATGATCTCCCACATTGTTGCTTACTACTCAGGGAAAAAAGAGCCTTTTGGGTACATAGGCATGGTCTGGGCCATAATGGCCATTGGACTTCTGGGCTTTATCGTCTGAGCCCATCCCATGTTTACAGTCGGGATAGACGTAGACACCCGGGCTTAC
194
Pollichthys mauli NNNNNNGTGCGGTTCTCTTTCACCATCATGTCCATCTCTGTCAGGGCAGAGGACAATGAGGACGAGGTTACCCTTTTCACCGAGCCAAAGCCCAACTCAGAGCTGTCCTGCAAACCCCTGTGCCTGACATTTGTGGATGAGTCAGACCATGAGACACTCACTGCAGTCCTGAGACCCGTCGTTACAGAGCGGAAAGCGATGACAGAAAGCAGACTCATCCTATCCATAGGTGGACTGCCTCGCTCTTTCCGCTTCCACTTCAGAGGCACTGGATATGATGAGAAGATGGTACGTGAGATGGAGGGCCTCGAAGCTTCAGGGTCCACCTACATCTGCACTCTTTGTGACTCCACCCGGGCAGAGGCCTCTCAAAACATGGTGCTGCACTCCATCACCCGCAGTCATGATGAGAACCTGGAACGCTATGAAATMTGGCGGACCAACCCCTATTCTGAGTCTGYGGATGAGCTGAGAGATAGRGTAAAAGGGGTATCAGCCAAGCCCTTCATGGAGACTCAACCTACTGTGGATGCTCTGCACTGTGACATTGGCAACGCCACTGAGTTCTACAAAATCTTCCAGGATGAGATCGGGGAGGTATTTGAAAAG------GTCAACCCCAGCCGTGAGGAACGGCGGGGCTGGAGGGCAGCCCTAGACAAGCAGTTGAGGAAAAA AATGAAGCTCAAACCAGTGATGAGGATGAATGGAAACTACGCCCGCAAGCTGATGACCATGGAGGCTGTGGAGGTGGTGTGTGAGTTGGTGCCTTCAGAGGAAAGGAGGGAGGCCCTGAGGGACCTCATGAGATTGACCCTCNNNNNNNNNNNNNNNNNNNNNNNNACTGTCAACACCAAGAGAGTTATTCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTTGGTAATGCCAAAACGCTGAGGAACGACAACTCGTCACGGTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGTAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAATCACGTGTCACCTTTCAGCTCAAATCAGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCTAATCAAAAACCAGAGCTGCTGGAYATGCTTTTAATCACCAACAATCCATACGACTACTCCTACATCTCCCAAGGAGAGGTAACGGTAGCATCCATCAATGATTCTGAGGAACTGATGGCCACTGACAGTGCATTTGACGTGCTTGGTTTTACTCCAGAGGAGAAAATGGGAATCTACAAGTTGACAGGTGCTATCATGCATTATGGCAACATGAAGTTCAAGCAAAAACAGCGTGAGGAGCAGGCYGAGCCTGACGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGCCTCTGTCATCCCAGGGTCAAGGTCGGTAATGAGTATGTTACAAAGGGGCAGGGAGTAGACCAAGTCTATTACTCTCTTGGTGCACTGGCTNNNNNNAGGAACCTGCACCCGTCCAACTGCCTGGGAATGCTGCTGCTCTCCGACGCCCACCAGTGCACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTGCAGCTGCCGAAAGACATGGCCGTGCAGCTGCTGTCGCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAAGCCGCCCTCGACTGGGTCAACTACGACCTGGAGAGRCGGCTCTGCCACCTGGCCGAGCTCCTCCGCACGGTTCGCCTGGCGCTGCTGCCCGCCATCTTCCTGATGGAGAACGTGTCGACGGAGGAGCTGATCAACGGCCAGGCCGAGAGCAAGCAGCTGGTGGATGAGGCCGTCCGCTGCAAACTGAGGATCCTGCAGAACGATGGCGTGGTCAACAGCCCGTGCGCTCGGCCACGCAAGACCAGCCATGCGCTCTTCCTGCTGGGCGGCCAGACGTTCATGTGCGACAAACTCTACGTGGTCGACCAGAAGGCCAAGGAGATCATCCCCAAGGCCGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTTTACATCACCGGAGGCCGGGGCTCTGAGAACGGGGTCTCCAAAGACGTCTGGGTGTACGACGCGTCCCGTGAGGAGTGGTCGAAGGCGGCCCCCATGCTCGTCGCGCGGTTCGGCCACGGCTCTGCAGAGCTGCAGCACTGCCTCTACGTGGTCGGGGGACACACGGCCGGGACGGGCTGCCTG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????
195
Polymetme thaeocoryla AAGGCAGTGCGATTCTCCTTCACCGTCATGTCTGTCTCCGTGCAGGCTGAGGGGGAGGACAAGGCCGTCACCATCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCATGAGATGCTGACGGGCGTCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGCACCGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACCCGGGCAGAGGCCTCCCACAACATGGTGCTGCACTCCGTTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCACAGATGAGCTTCGGGATCGGGTGAAAGGCGTCTCAGCCAAACCCTTCATGGAGACCCAGCCCACCCTGGACGCACTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCGGAGG------CCGAATGCAAGCAGGGAGGAACGCCGGAGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGAAGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATCGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCAGGAGGCCCTCAGGGAGCTGATGGGGCTCTACCTCCAAATGAAGCCTGTTTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTCCCGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAATGCCAAAACGGCGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGGCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTATCATCCATCAATGATTCTGAGGAATTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGACAGGTGCAATCATGCATTACGGTAACATGAAGTTCAAGCAAAAGCAGCGCGAGGAGCAGGCAGAGCCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGNNNCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTCCTCTCGGACGCCCACCAGTGCGCCAAGCTGTCGGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTGCAGCTGCCCAAAGACATGGCGGTCCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACTTGCCGGAGCTGCTGAGAACCGTTCGTCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCGCGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGACACGTCCCATGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGGTTCGGCCATGGTTCTGCAGAACTCAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGCACGGGCTGCCTCATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCGGAATTAAACCAACCCGGCACCCTTTTAGGAAACGACCAAATTTATAATGTAATTGTTACAGCACATGCCTTTGTAATAATCTTCTTCATAGTGATACCAATCATAATTGGAGGCTTTGGAAACTGACTAATCCCTCTTATGATTGGGGCTCCTGATATAGCCTTTCCCCGAATAAATAACATAAGCTTTTGGCTTCTCCCACCCTCCTTCCTCCTTCTACTTGCCTCCTCCGGAGTTGAAGCCGGGGCTGGGACTGGATGAACAGTCTATCCCCCACTTGCCGGCAATTTAGCCCACGCAGGGGCCTCCGTTGACCTAACCATTTTCTCCCTGCATCTTGCAGGGATCTCTTCAATCCTTGGGGCAATCAACTTTATTACCACAATTATTAACATGAAACCCCCAGCTATTTCCCAATACCAAACACCCCTCTTTGTCTGAGCTGTCCTTGTTACCGCTGTTCTTCTTCTCCTATCTCTCCCAGTCTTAGCTGCTGGAATTACCATGCTTTTGACAGACCGAAACCTGAACACGACCTTCTTTGACCCAGCAGGAGGGGGAGACCCCATTCTTTACCAACACCTCTTCTGATTCTTTGGGCACCCCGAGGTATATATTTTAATCCTTCCAGGCTTTGGTATAATCTCTCACATTGTTGCCTACTATTCAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
196
Vinciguerria nimbaria AAGGCGGTGAGATTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGATAGATGGTATGGAAAAGCCAGTAACTGTGTTCAGGGAGTCCAAACCCAACTCAGAGCTCTCCTGCAAACCTCTGTCTCTGATGTTCGTAGATGAGTCCGACCACGAGACACTGACGGGCATCCTCGGACCTGTGGTGGCTGAGAGGAATGCCATGAAGAACAGTCGCCTTATCCTGTCTCTGGGAGGCCTCCCTCGATCTTTCCGATTCCATTTCAGGGGCACGGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCTTGGAGGCCTCGGGCTCCACCTACATCTGCACTCTCTGTGACTCCACCCGGGTAGAGGCCTCCCACAATATGGTTCTGCACTCTGTCACCCGCACACATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACAAACCCTTATTCTGAGTCAGCTGATGAGCTTCGAGATCGGGTAAAAGGTGTCTCTGCCAAGCCTTTCTTGGAGACTCAGCCCACACTGGACGCACTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAAGATGAGATAGGGGAGGTGCACCAGAGG------CCCAATCCGAGCAGGGAGGAGCGGCGGGGCTGGCGGGCTGCCCTGGACAAGCAGTTGAGGAGAAA GATTAAGCTGAGGCCAGTGATGAGGATGAATGGAAACTATGCCAGGCGACTGATGACAAGTGAGGCGGTGGAGGTGGTGTGCGAGCTGGTTCCCTCTGAGCCACGGCGGGAGGCCCTCAGGCAGCTAATGGCACTTTACCTCCAGATGAAGCCTGTCTGGCGCNAGACTGTCAACACCAAGAGRGTCATCCAGTACTTTGCCAGCATTGCTGCGGTGGGYGGAGGC------GAGAGGGATACCAGCAAGGGAACAYTGGARGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCCTTTGGTAAYGCCAAAACATTGAGGAATGACAACTCATCCCGTTTTGGAAAATTCATCCGAATTCACTTTGGAACCASTGSCAAGYTGTCSTCTGCTGACATNGAGACTTACCTACTGGAAAAGTCCCGTGTCACCTTYCAGCTCAAGGCTGAGAGGAACTATCACATCTTCTTCCAGATCTTGTCCAATCARAAGCCAGAGCTGCTGGACATGCTGCTGATYACCAACAACCCATATGACTACTCYTTCATCTCCCAAGGAGAGGTAACAGTACAGTCCATCAATGATTCAGAGGAAYTGATAGCYACTGAYAGYGCCTTTGATGTSCTTGGCTTCASTCAAGATGAGAARATGGGAATCTACAAGCTGAYCGGTGCCATYATGCAYTAYGGCAACATGAAGTTCAAGCAGARGCAGCGTGAGGAGCARGCTGAGCCTGAYGGAMCGGAGGCTGCCGACAAGGCAGCTTACCTGATGGGCCTGAACTCTGCAGACYTCATCAARGGACTGTGCCATCCCAGAGTCAAGGTAGGAAATGAATATGTCACCAAAGGCCAGGGTGTAGAACAAGTCTACTACTCCATTGGTNNNNNNNNNCTGGAGAGGAACCTCCACCCCAGCAACTGCCTGGGCATGCTGCTGCTGTCCGACGCCCACCAGTGTGCCAAGCTGTCGGAGCTGTCCTGGGGGATGTGCCTGGGCAACTTCCCGGCCATCTGCAAGACGGAGGACTTCCTGCAGCTGCCTAAGGACATGGTGGTGCAGCTGTTGCAGCACGAGGAGTTGGAGACGGAGGATGAACGGCTGGTGTACGAGGCGGCGCTCAACTGGGTGAACTACGACCTCGAGCGCCGTCACCGACACCTGTCAGAGCTGCTGCGCACGGTGCGGCTGGCACTTCTACCCGCCATTTTCCTCATGGAGAACGTGTCGACAGAAGAGCTAATTAACGCCCAGGCGAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGAGGGGGTGGTGAACAGCCCATGTGCCCGGCCCAGAAAGACCAGTCACGCCCTCTTCCTGCTGGGAGGGCAGACGTTCATGTGTGACAAACTYTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCTCCCCCAGGAAGGAGTTTTCGGCCTGCGCCATTGGCTGCAAGGTGTACGTGACAGGCGGGCGAGGCTCAGAGAACGGCGTGTCCAAGGACGTGTGGGTGTAYGATACAGTGCAGGAGGAGTGGTCCAAGGCAGCGCCCATGCTCATCGCACGATTTGGTCATGGCTCGGCAGAGTTGAAGCACTGTCTCTATGTGGTGGGTGGGCACACTGCCGCCACCGGCTGCCTCATAGTTGGCACTGCCCTGAGTCTTCTTATCCGGGCAGAGCTGAGCCAGCCCGGGGCTCTCCTTGGTGATGACCAAATTTATAATGTAATCGTCACTGCGCACGCTTTCGTGATGATTTTCTTCATAGTAATACCTCTAATAATCGGAGGCTTCGGCAACTGGCTGATCCCCCTAATGATTGGGGCCCCCGACATGGCTTTCCCCCGAATGAACAATATGAGTTTCTGACTCCTCCCCCCTTCCTTCCTTCTCCTCTTGGCATCATCAGGTGTTGAGGCAGGAGCCGGAACAGGGTGAACTGTCTACCCCCCTTTGGCAGGCAATCTCGCGCATGCGGGAGCCTCAGTAGACCTAACCATCTTTTCGCTTCATTTAGCGGGCATCTCATCTATTCTAGGGGCCATCAACTTTATTACGACTATTATCAATATGAAGCCTCCTGCAATTTCTCAGTACCAGACCCCCCTATTTGTCTGAGCAGTCTTAGTCACAGCGGTCCTCCTACTACTCTCTCTCCCTGTTCTAGCTGCCGGCATCACAATGCTACTTACAGACCGAAACCTCAATACAACCTTCTTTGACCCTGCTGGGGGAGGAGACCCCATTCTCTACCAACACCTTTTCTGATTCTTTGGTCACCCAGAAGTCTACATCCTAATTCTCCCAGGGTTCGGAATGATCTCCCACATCGTCGCATACTACTCCGGCAAAAAAGAACCTTTCGGGTATATAGGAATAGTCTGAGCTATAATAGCAATTGGCCTCTTAGGCTTTATTGTCTGAGCACATCACATGTTTACTGTGGGGATGGATGTTGACACCCGAGCATAC
197
Vinciguerria poweriae NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCGTCCAGGTCGATGGCGAGGATGAGCCGGTGACTGTGTTCAGGGAGTCCAAGCCCAACTCAGAGCTCTCCTGCAAGCCTCTGTCTCTGATGTTCGTGGATGAGTCAGACCACGAGACACTGACGGGCATCCTCGGACCTGTGATGGCTGAGAGGGATGCCATGAAAAACAGTCGCCTCATCCTGCCACTGGGAGGCCTCCCCCGATCTTTCCGCTTCCATTTCAGGGGCACGGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCTTGGAGGCCTCAGGCTCCACCTACATCTGCACTCTCTGTGACTCCACGCGGGGAGAGGCCTCCCACAATATGGTGCTGCACCCTGTCACTCGCACACATGAAGGGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCTGAGTCAGCCGACGAGCTTCGGGATCGGGTGAAAGGCGTTTCCGCCAAACCCTTCATGGAGACTCATCCCACCCTGGATGCTCTGCACTGTGACATCAGCAACGCCACAGAGTTCTACAAGATCTTCCAGGATGAGATCGGTGAGCTGTACCGGAGG------CCCAACCCGAGCAGGGAGGAGCGGCGAGGCTGGCGAGCAGCCNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????
198
Yarrella blackfordi AAGGCCGTGCGATTCTCCTTCACCGTCATGTCTGTCTCCGTGCAGGCTGAGGGGGAGGACGAGGCCGTCACCATCTTCAGGGAGCCCAAGCCCAACTCTGAGCTGTCYTGCAAGCCTTTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGCATCCTTGGGCCTGTGGTGGCCGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCCTCGATCCTTCCGCTTCCACTTCAGGGGCACAGGCTATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGTGACTCCACCCGGGCAGAGGCCTCCCACAATATGGTGCTGCACTCCATTACCCGCAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGATGAGCTTCGGGATCGGGTGAAAGGTGTCTCAGCCAAACCCTTCATGGAGACCCAGCCCACCTTGGACGCACTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGATGAGATCGGGGAGGTGTACCGGAGG------CCGAACGCAAGCAGGGAGGAGCGCCGGAGCTGGCGGGCTGCTCTGGACAAACAGCTGAGGAGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGACCAGCGAGGCGGTGGAGATGGTGTGTGAGCTGGTCCCCTCAGAACAGCGGCRGGAGGCCCTCAGGGAGTTGATGGGGCTCTACCTCCAAATGAAGCCTGTTTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGCCGGAGCM------AAGAGGGATACCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGTAACGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGCAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGCTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGTGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAGGAGTTGATCGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGGGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGCGAGGAGCAGGCAGAGGCTGACGGCACCGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAAGGACTGTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTNNNNNNNNNCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTCCTCTCAGACGCCCACCAGTGCRCCAAGCTGTCGGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTCCCCGCCATCTGCAAGACGGAGGACTTCCTGCAGCTGCCCAAAGACATGGCGGTCCAGCTGCTGTCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACTTGCCAGAGCTGCTGAGAACCGTTCGTCTGGCCCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGGCAGACCTTCATGTGTGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGTGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGACACGTCTCATGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGGTTCGGCCACGGTTCTGCAGAACTCAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGCACGGGCTGCCTCATGGTCGGCACAGCTTTAAGCCTGCTTATCCGAGCGGAGTTAAACCAACCCGGTGCCCTTCTAGGCGACGACCAAATTTATAATGTCATTGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATAATCGGAGGCTTTGGAAACTGACTAATTCCTCTCATAATTGGCGCCCCCGACATAGCATTCCCCCGAATAAACAACATAAGCTTTTGGCTCCTCCCTCCCTCCTTTCTTCTCCTACTTGCCTCCTCCGGAGTTGAAGCCGGGGCCGGAACTGGCTGAACAGTCTACCCCCCTCTCGCCGGCAATTTAGCCCACGCAGGAGCTTCCGTCGACCTGACCATTTTCTCCCTCCATCTTGCAGGAGTTTCTTCAATCCTCGGATCAATCAACTTTATTACCACTATTATTAATATAAAACCCCCAGCCATCTCCCAATATCAGACACCCCTCTTCATCTGAGCCACTCTTGTTACCACTGTTCTTCTTCTTTTGTCTCTCCCGGTTCTAGCTGCTGGAATTACTATGCTTCTAACAGACCGAAACCTAAACACAACCTTCTTCGACCCGGCAGGGGGAGGAGACCCTATTCTCTACCAACACCTTTTCTGATTCTTTGGGCACCCGGAAGTATATATTCTAATTCTTCCAGGCTTCGGCATAATTTCCCATATTGTCGCCTATTATTCAGGAAAGAAAGAGCCCTTTGGTTATATGGGGATGGTCTGAGCTATAATAGCCATCGGACTTCTAGGCTTTATTGTTTGAGCCCATCACATGTTTACAGTCGGAATAGATGTAGACACCCGAGCCTAC
199
Astronesthes gemmifer AAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGACCGAGGATACRGACGAGGCCGTCACTGTCTTCCGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTYGTGGACGAGTCCGACCATGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTTATCCTGTCACTGGGGGGCCTCCCCCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTAGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTTGGAGTCTGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGATGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGAGGCGTGGCTGGCGTGCCGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTATGCACGCCGGCTGATGACCGTCGAGGCGATTGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGAGAGGCCCTCCGGGAGCTGATGGCACTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATGCCAGTAAGGGAACCCTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGARGCGTTCGGCAATGCCAAAACGTTGAGGAACGACAACTCGTCTCGCTTTGGAAAATTCATCCGGATTCACTTTGGAACCAGTGGAAAGTTGTCCTCTGCAGACATCGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATAYGACTACTCYTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGYGCCTTCGATGTGCTKGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGGGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGAGAGAGGAGCAAGCAGAGCCCGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGCCTCTGYCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACTCCATCGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTYCTCTCAGATGCCCATCAATGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGCAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCACGAGGAGCTGGAGACTGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACTTGGAGAGGCGGCACTGTCACCTGCCAGAGCTGCTAACAACYGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACSGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAAGGTGTGGTCAACAGCCCGCTAGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCARACCTTCATGTGCGACAAACTCTACCTGGTAGACCAGAAGGCCAAGGAGATAATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAATGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTTGGCGGACACACGGCCGGAACAGGCTGCCTCATGGTCGGCACAGCTTTAAGCCTGCTCATTCGGGCGGAGCTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATTTATAATGTTATCGTTACAGCACATGCTTTCGTTATAATCTTCTTTATAGTAATGCCCATCATGATTGGAGGCTTCGGGAACTGGCTAATTCCCTTAATGCTAGGGGCCCCCGACATGGCCTTCCCTCGCATAAATAATATGAGCTTCTGGCTCCTCCCCCCATCCTTCCTTCTTCTGCTAGCCTCTTCAGGCGTAGAAGCTGGGGCCGGGACAGGATGAACTGTCTACCCCCCTCTTGCCGGGAACTTAGCCCACGCAGGAGCCTCCGTCGACTTAACAATCTTCTCCCTCCACCTTGCAGGAATCTCCTCAATTCTAGGGGCCATCAACTTTATCACAACTATTATCAACATGAAGCCCCCCGCCGTCTCTCAGTACCAAACACCCCTCTTCGTCTGAGCAGTCCTAATTACTGCTGTCCTACTACTTCTTTCTCTTCCAGTCCTAGCCGCTGGCATCACCATGCTTCTTACGGACCGAAACCTTAATACAACCTTCTTTGACCCCGCAGGGGGCGGAGACCCCATTCTTTATCAGCACCTCTTTTGGTTTTTTGGCCACCCAGAAGTCTACATCCTCATTCTTCCAGGCTTCGGAATAATTTCCCACATCGTTGCCTACTACGCAGGAAAGAAAGAACCCTTCGGCTACATAGGAATGGTCTGAGCCATGATGGCCATCGGACTCCTGGGCTTTATTGTTTGAGCCCACCACATGTTTACAGTAGGAATGGATGTAGACACTCGAGCCTAC
200
Borostomias elucens AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCGGGAGTCCAAGCCAAACTCCGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTTGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGGCTCCCTCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTACGCGAGATGGAGGGGCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCATGACGAGAACGTGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCGGAGAGCGCAGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCAGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGCGCAGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGTGGAGGCGGTGGAGGCGGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATGTCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAAGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACTTTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGATAGGTGCAATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCNNNNNNNNNNNNNNNCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTGCTGTCAGACGCCCACCAGTGCGCCAAGCTGTCCGAGCTGTCCTGGGGCATGTGTCTCAGCAACTTCCCCGCCATCTGCAAGACAGAGGACTTCCTCCAGCTGCCCAAGGACATGGTGGTGCAGCTGCTGGCCCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTACGACCCGGAGAGGCGCCACCGCCACCTGGCCGCGCTGCTGGCGACGGTACGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGAGCTGATCAACGCCCAGGTCGAGAGCAAGTCGCTGGTGGACGAAGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGYTGGGCGGACAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGGGGGCGGGGCTCGGAGAACGGCGTGTCCAAAGACGTGTGGGTGTACGACACCKTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTGATCGCCCGGTTTGGCCACGGCTCAGCCGAGCTGAAACACTGCCTCTACGTGGTGGGAGGGNNNNNNNNNNNNNNNNNNNNNNNNATGGTCGGCACAGCTTTAAGCCTGCTAATCCGAGCAGAGTTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATTTACAACGTTATCGTGACAGCACATGCTTTCGTAATAATCTTCTTTATAGTAATACCCATCATGATCGGGGGGTTTGGAAACTGACTGCTCCCCCTTATGATTGGGGCTCCTGATATGGCTTTCCCCCGAATAAATAACATGAGCTTCTGACTCCTCCCTCCCTCCTTCCTTCTCTTATTGGCCTCTTCAGGCGTCGAGGCTGGAGCCGGAACCGGGTGAACCGTGTACCCGCCTCTTGCAGGAAACCTGGCCCATGCAGGGGCCTCCGTTGACTTAACGATCTTTTCACTTCACCTAGCAGGGATCTCCTCAATCCTAGGGGCCATCAACTTTATTACCACGACTATCAACATGAAGCCCCCAGCAATCTCCCAATACCAGACACCCCTATTCGTTTGAGCCGTCCTTGTCACTGCAGTCCTACTCCTCCTGTCCCTCCCAGTCTTAGCCGCTGGAATTACCATGCTTCTAACAGACCGAAACCTAAATACAACCTTCTTTGACCCGGCAGGGGGAGGAGACCCCATTCTCTACCAACACCTCTTCTGATTCTTTGGCCATCCGGAGGTCTACATCCTGATCCTCCCCGGCTTCGGGATAATCTCCCACATTGTTGCCTACTACTCAGGAAAGAAAGAACCCTTTGGCTATATAGGGATAGTCTGAGCCATGATGGCCATTGGCCTCCTGGGGTTTATTGTCTGAGCCCATCACATGTTTACAGTGGGCATGGACGTAGATACTCGAGCCTAC
201
Heterophotus ophistoma AAGGTCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCGGGAGTCCAAGCCCAACTCTGAGCTGTCTTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCCTGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACGTGGAACGCTATGAGATCTGGAGGACCAACCCCTACTCGGAGTCCGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCCCTGCATTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGCTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGTGCCGCGCTGGACAAGCAGCTGAGGAGTAA GATGAGGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGTGGAGGCGGTGGAGGCCGTGTGTGAGCTGGTTCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCGCTGGAGGCTTTCGGCAATGCCAAAACGTTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGAGAGAGGAGCAGGCAGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCATCCAACTGCCTTGGCATGCTGCTGCTGTCAGATGCCCACCAGTGCACCAAGCTGTCAGAGCTGTCCTGGGGTATGTGTCTCAGCAACTTCCCTGCCATCTGCAAGACRGAGGACTTCCTCCAGCTTCCCAAAGACATGGTGGTGCAGCTTCTGTCCCACGAGGAGCTGGAGACGGAGGATGAGAGACTGGTTTACGAGGCTGCCCTTAACTGGGTCAACTACGACCTGGAGAGGAGACACTGCCACCTGCCGGAGCTGCTGAGGACCGTGCGCCTGGCCTTGCTTCCCGCCATCTTCCTCATGGAGAACGTCTCCACAGAGGAGCTGATCAATGCCCAAGTAAAGAGCAAGGAGTTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAATGAYGGTGTGGTCAACAGTCCYTGTGCCCGGCCCAGGAAGACCAGCCATGCCCTCTTCTTGCTGGGAGGACAGACCTTCATGTGTGACAAGCTGTACTTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGTGCCATCGGCTGTAAGGTCTACGTCACGGGCGGGAGAGGCTCCGAGAACGGCGTGTCTAAAGATGTGTGGGTCTACGACACCGTCCATGAGGAGTGGTCTAAGGCAGCACCTATGCTCATTGCCAGGTTTGGCCACGGCTCTGCTGAGCTCAAACACTGTCTCTATGTGGTCGGAGGACACACAGCAGCCACCGGCTGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNATCCGAGCAGAACTAAGTCAACCCGGTGCCCTTCTAGGCGACGACCAAATTTACAATGTTATCGTTACGGCACATGCTTTCGTGATAATCTTCTTTATAGTAATACCCCTTATGATTGGAGGCTTTGGAAATTGACTGATTCCCTTAATGATCGGGGCTCCTGATATAGCTTTCCCTCGCATAAATAATATGAGCTTTTGACTTCTCCCCCCCTCCTTCCTTCTTTTACTTGCCTCTTCAGGCGTTGAAGCTGGAGCCGGGACAGGATGAACCGTCTACCCCCCTCTGGCAGGGAACTTGGCCCATGCAGGAGCCTCCGTTGACTTGACAATTTTTTCTCTTCATTTAGCGGGAATCTCTTCAATTTTAGGGGCAATCAACTTTATTACCACAATCATTAACATAAAGCCCCCAGCCATCTCCCAGTACCAGACTCCCCTGTTTGTTTGAGCTGTTCTAGTTACTGCTGTCCTCCTTCTGTTGTCACTTCCTGTTCTAGCCGCTGGAATTACCATGCTCCTTACAGATCGAAACCTTAACACAACCTTTTTTGACCCAGCAGGGGGAGGAGACCCCATTCTTTACCAACACCTCTTCTGATTCTTTGGCCACCCGGAAGTCTATATTCTTATTCTCCCAGGCTTCGGAATAATTTCCCACATTGTCGCTTACTATTCCGGAAAGAAAGAACCTTTTGGTTACATAGGAATGGTCTGAGCCATGATGGCCATCGGCCTTCTCGGCTTCATCGTCTGAGCCCATCACATGTTCACAGTAGGAATGGANGTAGACACCCGAGCCTAC
202
Neonesthes capensis ARGGCCGTGCGCTTCTCCTTCACTGTCATGTCCATCTCCGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACTGTCTTCCGGGAGCCCAAGCCCAACTCCGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGATGGGGGGCCTCCCTCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTACGCGAGATGGAGGGGCTGGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGAGCGCGGACCAGCTGCGCGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCACCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATGTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCGGGCCCAGCCGGGAGGAGCGGCGCGGCTGGCGCGCAGCGCTGGACCAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCGGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGTGGAGGCGGTGGAGGCGGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAAGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACCTTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCTCAGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCGTATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCYGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACKCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCGGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGAGTGTAGACCAAGTCTATTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCACTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCACCATTTGCAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCGATCCAACTGCTGTCTCACGAGGAGCTGGAAACGGAGGACGAGAGGCTGGTCTAAGAGGCCGCCATCAACTGGGTCAACTATGATCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGTGTGATCAACAGCCCGCTGGCCAGGCCAAGGAAGACCAGCCACTCCCTCTTCYTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTTTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNGGCACAGCTTTAAGCCTACTCATTCGAGCTGAACTAAGCCAACCCGGGGCCCTTCTAGGTGACGACCAAATTTATAATGTAATTGTTACTGCACACGCTTTTGTAATAATCTTCTTTATAGTAATACCCCTCATGATCGGAGGCTTTGGGAACTGACTAATCCCATTAATRATTGGGGCCCCAGATATRGCCTTCCCTCGAATAAATAATATAAGCTTCTGACTTCTCCCCCCCTCCTTTCTACTTCTCCTTGCTTCTTCTGGAGTTGAGGCCGGGGCCGGAACCGGRTGAACCGTTTACCCCCCTCTTGCCGGCAACCTGGCCCACGCCGGAGCCTCAGTAGACCTAACAATTTTCTCGCTTCAYCTRGCAGGGATCTCCTCAATTCTAGGGGCCATTAACTTTATCACAACAATCATTAACATGAAGCCCCCAGCTATCTCCCAATACCAAACACCCCTATTTGTGTGAKCTGTTCTARTTACAGCTGTCCTCCTTCTCCTCTCCCTGCCCGTGCTAGCMGCCGGCATCACAATACTCCTAACAGACCGAAACCTAAACACAACTTTCTTTGACCCCGCGGGGGGAGGAGACCCYATYCTCTACCAACACYTATTTTGATTCTTCGGCCACCCAGAAGTATAYATTCTTATTCTTCCAGGCTTCGGAATAATCTCTCACATTGTTGCCTACTACTCCGGCAAAAAAGAACCCTTTGGGTATATGGGAATGGTCTGAGCCATGATAGCCATCGGCCTCCTAGGCTTTATCGTGTGAGCCCACCACATGTTCACCGTCGGAATAGACGTRNNNNNNNNNNNNNNN
203
Rhadinesthes decimus AAGGCCGTGCGCTTCTCCTTCACTGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTTGTGGATGAGTCCGACCACGAGACGCTGACAGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCCCGCTCTTTCCGCTTCCACTTCAGGGGTACAGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACGTGGAACGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCCGCGGACGAGCTGCGGGACCGGGTGAAGGGYGTCTCRGCCAAGCCCTTCATGGAGACCCATCCCACCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAACGGCGCGGCTGGCGTGCCGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGTGGAGGGGGTGGAGGCCGTGTGTGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGAGAGGAGCAGGCCGAACCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGAATGCTGCTGCTGTCCGACGCCCAYCAGTGTGCMAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATCTGCAAGACGGAGGAATTCCTCCAGCTGCCCAAGGACATGGTGGTGCAGCTGCTGKCYCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAACTGGGTCAACTACGACCCGGAGAGGCGCCACCGCCACCTGGCGGMGCTGCTGGCRACSGTKCGCCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGAGCTGATCAACGCCCAGGTCGAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAAGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGTGCGCCCGCCCCCGCAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGACAGACCTTCATGTGCGACAAGCTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACGTCACCGGTGGGAGGGGCTCGGAGAACGGCGTGTCCAAAGACGTGTGGGTGTACGACACCGTCCAGGAGGAGTGGTCCAAGGCGGCGCCCATGCTGATCGCCCGGTTCGGCCACGGCTCGGCCGAGCTGAAACACTGCCTCTACGTGGTGGGAGGRCACACTGCGGCCACGGGCTGCCTCATGGTCGGCACGGCTTTAAGCCTGCTAATCCGAGCAGAGTTAAGTCAACCCGGTGCCCTTCTGGGCGACGACCAAATTTATAATGTTATCGTTACAGCACATGCCTTCGTAATAATCTTCTTTATAGTAATGCCCATCATGATCGGGGGCTTTGGAAACTGGCTAATCCCCCTTATGATCGGGGCCCCTGACATAGCTTTCCCTCGAATAAACAATATAAGCTTTTGACTCCTCCCTCCCTCCTTTCTTCTTTTGCTTGCTTCTTCGGGCGTTGAAGCTGGGGCCGGAACGGGGTGGACCGTTTACCCCCCTCTTGCTGGGAACCTCGCCCATGCAGGAGCCTCCGTCGACCTGACAATCTTCTCTCTCCACCTAGCGGGGATCTCTTCAATTCTAGGAGCAATCAACTTTATCACTACAATTATTAACATGAAGCCCCCAGCCATCTCCCAGTACCAGACACCCCTCTTTGTCTGAGCCGTTCTTGTTACTGCTGTCCTCCTTCTTCTATCTCTCCCAGTCTTGGCCGCTGGAATTACCATGCTCCTTACGGACCGAAACCTTAACACAACCTTTTTTGACCCGGCAGGAGGAGGAGACCCTATTCTTTACCAACACCTCTTCTGATTCTTCGGCCACCCAGAAGTTTACATTCTAATTCTTCCGGGCTTCGGAATAATCTCCCACATTGTTGCTTACTACTCCGGAAAAAAGGAGCCCTTCGGCTACATGGGGATAGTCTGAGCTATGATGGCTATCGGACTCCTCGGCTTTATCGTCTGAGCCCACCACATGTTTACAGTAGGCATGGATGTGGATACCCGAGCCTAC
204
Stomias affinis NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCGCTCCTTCCGCTTTCACTTCAGAGGCACAGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACGTCTGCACTCTCTGTGACTCCACCCGAGCGGAAGCCTGTCACAACATGGTGCTTCACTCCATCACCCGCAGCCACGAAGAGAACCTGGAGCGTTACGAGATATGGAGGACCAACCCCTTTTCGGAGTCTGCGGATGAGCTGCGAGACCGAGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACTCAGCCCACCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGTACCGGAAG------CTCAACCCCAGCCGGGAGGAACGGCGCAGCTGGAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNN NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTGCCCGGAGCA------AAGAGGGATCCCAGTAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGAAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTTTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGTGCATTTGACGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAGGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTCAAGGGGCTCTGCCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGAGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTCCATCCGTCCAACTGCCTGGGAATGCTGCTGCTCTCAGACGCCCACCAGTGCACCAAGCTGTCCGAGCTCTCCTGGGGCATGTGCCTCAGTAACTTTCCCGCCATTTGCAAGACTGAGGACTTCCTGCAGCTGCCCAAAGACATGGCCGTCCAGCTGCTGTCCCACGAAGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAGGCCGCGCTCAGCTGGGTCAACTATGACCTGGACAGACGACACTGTCACCTGCCAGAGCTGCTGAGGACAGTTCGTCTGGCGCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACAGAGGAGCTGATCAACGCGCAGACCAAGAGCAAGGCGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCCGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGGCAGACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCCGGGGCTCCGAGAACGGGGTCTCCAAAGACGTCTGGGTCTACGAYACCTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCACGGCTCAGCGGAGCTGAAACACTGCCTCTACGCGGTGGGCGGACACACGGCCGGGTCAGGCTGCCTCATGGTCGGCACAGCTTTAAGCCTGCTTATTCGGGCAGAACTAAGTCAACCCGGCGCCCTCCTAGGCGACGACCAAATCTATAACGTTATCGTTACTGCGCACGCCTTCGTAATAATTTTCTTCATAGTAATGCCCCTCATGATCGGCGGCTTCGGAAACTGATTAGTCCCCCTAATGATTGGCGCCCCCGACATGGCCTTCCCCCGAATGAATAACATGAGCTTTTGGCTCCTTCCCCCCTCATTCCTCCTCCTTCTTGCCTCTTCTGGCGTGGAAGCCGGGGCCGGGACAGGCTGAACCGTCTACCCCCCTCTCGCTGGCAACCTAGCCCACGCAGGGGCCTCCGTAGACCTAACAATCTTCTCCCTTCACCTAGCAGGTGTCTCTTCCATTCTTGGTGCAATCAACTTCATCACCACAATTATTAATATGAAACCCCCAGCCATCTCCCAATATCAGACACCCCTCTTTGTCTGATCTGTCCTAATCACCGCTGTCCTTCTTCTCCTCTCCCTGCCGGTTCTGGCTGCCGGAATTACGATGCTTCTTACAGATCGAAACTTAAATACAACATTCTTTGACCCGGCAGGGGGAGGTGACCCCATCCTCTATCAACACCTGTTCTGATTCTTTGGTCACCCAGAAGTCTATATCCTGATTCTCCCAGGCTTCGGCATGATCTCCCACATTGTAGCCTACTACTCCGGAAAAAAAGAACCTTTCGGTTACATGGGCATGGTCTGAGCCATGATGGCTATCGGACTTCTTGGCTTCATTGTCTGAGCCCACCACATGTTCACTGTGGGAATAGATGTAGACACACGAGCCTAC
205
Stomias atriventer AAGGCTGTACGTTTTTCTATCACTATTATGTCTGTCTCTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGCCGGCTCATCCTRTCCATGGGYGGMCTMCCYCGCTCSTTTCGCTTYYACTTCAGAGGCACGGGATATGATGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCRGGATCYACYTATGTNTGCACTCTTTGTGACTCCACCCGGGCRGAGGCCTCCNAAAAYATGGTGCTNCATTCCRTCACNCGCAGYCACRRAGAGAACCTRGAKCGGTACGARATATGGAGRASCAACCCYTTTTCNGAGTCTGTNGAKGAGCTRCGRGATAGGGTSAAGGGGGTCTCCGCCAAGCCCTTCATGGAGACCCATTCCACTCTGGATGCNTTGCACTGTGACATNGGCAAYGCCRCGGAGTTCTACAAAATCTTCCAGGATGAGATCGGGGAGGTGTNCYARARG------GTCAACCCCAGTCGGGAGGAAMGGCGCAGCTGGAGGGCAGCCCTGGAYAARCAGCTGAGGAARAA GTTGAAGCTSARACCRGTGATGAGGATGAATGGCAACTAYGCCCGGMGGCNNNNNNNNNNNNAGGCTGTGGAGGTGGTGTGTGAGCTGGTGCCCTCAGAGGAGAGGAGGGAGGCCCTGAGGGAGCTTATGAGGCTCTACCTCCAGATGAAGCCCGTGTGGCGCNNNACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTGCCCGGAGCA------AAGAGGGATCCCAGTAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGAAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTTTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTACATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGTGCATTTGACGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAGGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCAGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTCAAGGGGCTCTGYCATCCCAGGGTTAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGAGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTCCATCCGTCCAACTGCCTGGGCATGCTACTCCTCTCTGACGCCCACCAGTGCACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGTAACTTTCCCGCCATTTGCAAGACCGAGGACTTCCTGCAGCTGCCCAAAGACATGGCGGTCCAGCTGCTGTCCCACGAGGAGCTGGAGACAGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAGCTGGGTCAACTACGACCTGGATAGACGACACTGTCACTTGCCAGAGCTGCTGAGGACAGTCCGTCTGGCCCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACAGAGGAGCTGATCAACGCGCAGACCAAGAGCAAGGCACTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACGCCCTTTTCCTTCTGGGTGGGCAGACCTTCATGTGCGACAAGCTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCCGGGGCTCTGAGAACGGGGTTTCCAAAGACGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCAGCAGAGCTGAAACACTGCCTCTACGCGGTGGGCGGACACACGGCCGGATCAGGCTGCCTCNNNNNNNNNNNNNNNTTAAGCCTGCTTATTCGGGCGGAGCTAAGTCAACCCGGCGCCCTACTAGGCGACGACCAAATTTACAACGTAATCGTTACTGCACACGCCTTCGTAATAATTTTCTTTATAGTGATGCCCATCATAATCGGCGGCTTTGGAAACTGGCTAGTCCCCCTAATGATCGGGGCCCCCGACATGGCTTTCCCTCGAATAAATAATATAAGCTTCTGACTCCTCCCTCCCTCCTTTCTCCTTCTTCTTGCCTCTTCAGGGGTTGAAGCCGGGGCTGGGACAGGTTGAACCGTCTACCCTCCTCTCGCCGGTAACCTGGCTCACGCAGGGGCATCCGTAGACCTAACGATCTTCTCTCTACACCTAGCAGGGATTTCCTCTATTCTCGGGGCAATTAATTTTATTACCACAATCATCAATATGAAGCCCCCAGCCATCTCCCAATATCAGACACCCCTGTTCGTCTGAGCTGTTCTAGTCACCGCTGTCCTCCTCCTTCTATCCCTCCCTGTCCTAGCTGCCGGAATTACAATACTTCTCACCGACCGAAACCTCAATACAACATTCTTCGACCCGGCAGGGGGAGGAGACCCCATTCTCTACCAACACCTGTTCTGATTTTTCGGGCACCCTGAAGTCTACATTCTAATCCTCCCAGGCTTTGGCATGATCTCTCATATCGTCGCCTACTACTCGGGGAAGAAAGAACCTTTCGGGTACATGGGGATAGTCTGAGCCATGATGGCCATCGGACTCCTAGGCTTCATCGTCTGAGCGCNCNNCATGTTCACTGTTGGGATAGACGTAGATACTCGAGCATAC
206
Chauliodus danae AAGGCTGTGCGATTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGGAAGGATGAGGCCGTCACCGTCTTCAGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGATCACGAGACGCTGACGGGTGTCCTTGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTGAGATCCTTCCGCTTCCACTTCAGAGGTACAGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTACCGGAGG------CCCAACCCAAGCAGGGAGGAGCGCCGGGGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGCGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTACGCCCGGCGGCTGATGAGCACAGAGGCGGTGGAGGTGGTCTGTGAGCTGGTCCCCTCAGAGCAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACCTCCAAATGAAGCCTGTGTGGCGCAAGACTGTCAACACCAAGAGAGTCATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATCCGAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCGTTTGGTAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCCCGATGCACCTTCCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATTTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTAACGGTAGCATCCATCAATGATTCAGAGGAGTTGATAGCCACGGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAAATGGAGTGTACAAGCTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGAGAGAGGAGCAGGCAGAGCCTGACGGCACAGAGGCTGCTGACAAGTCAGCTTACCTGATGGGCCTGAACTCTGCCGATCTAGTGAAGGGACTCTGCCATCCCAGAGTTAAGGTTGGCAATGAGTATGTCACAAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTCGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGCATGCTGCTTCTSTCCGATGCCCATCAGTGCGCCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCSGCCATTTGCAAGACTGAGGACTTCCTGCAGYTGCCCAARGACATGGYGGTGCAGCTGCTGTCTCACGAGGAGCTGGAGACAGAGGACGAGAGGCTGGTGTACGAGGCCGCTCTCAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGCCACCTGCCRGAGCTGCTGAGAACCGTCCGTCTGGCCCTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACRGAGGAGCTGATCAACGCCCAGGCCAAGAGCAAGGAGGTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGASGGTGTGGTCACCAGCCCGCGCGCCAGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGMCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGAGTCTCCAAGGACGTCTGGGTGTACGACACGTCCCACGAGGAGTGGTCGAAGGCGGCTCCCATGCTCATCGCCCGGTTCGGCCACGGCTCCGCGGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACCGGCNNNNNNATAGTCGGCACTGCACTTAGCCTGCTAATTCGGGCAGAACTCAGCCAGCCCGGTGCATTTATGGGCGACGACCAGATCTACAACGTTATCGTTACAGCACATGCCTTCGTTATAATTTTCTTCATAGTAATACCCATTATGATCGGGGGTTTCGGAAACTGGTTAATCCCTCTAATAATCGGGGCCCCTGACATAGCCTTCCCCCGAATAAACAACATGAGCTTCTGACTTCTCCCTCCCTCATTTCTTCTTCTACTCGCCTCTTCCGGAGTAGAAGCTGGGGCCGGGACCGGATGAACTGTATACCCACCCCTTTCAGGTAACCTCGCTCACGCTGGTGCCTCTGTTGACCTTACAATTTTCTCCCTCCACCTTGCAGGAATCTCTTCTATTCTAGGAGCAATTAATTTCATTACTACTATTTATAATATGAAACCCGCCGGTATATCCCAATACCAGGCTCCCCTGTTCGTGTGATCTGTTCTCATTACTGCTGTTCTTCTCCTTCTATCCCTACCCGTCCTAGCCGCCGGAATTACCATGCTTCTTACAGACCGAAACCTTAACACAACCTTCTTCGATCCTGCAGGGGGTGGAGACCCCATCCTTTACCAGCACCTCTTCTGATTCTTCGGCCACCCTGAGGTCTATATTCTTATTCTCCCGGGCTTCGGAATAATCTCCCACATTATTGCTTACTACGCTGGTAAAAAGGAACCCTTCGGCTACATGGGGATGGCCTGAGCCATAATGGCAATTGGACTTCTAGGCTTTATCGTATGGGCCCACCACATGTTCACTGTAGGCATGGACGTAGACACTCGCGCCTAC
207
Chauliodus sloani AAGGCTGTGCGATTCTCCTTCACYGTCATGTCCGTCTCTGTCCAGGCCGAGGGGAAGGATGARGCCGTCACCGTCTTCAGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCTCTGTGTCTGATGTTTGTGGATGAGTCTGAYCACGAGACGCTCACGGGTGTCCTKGGGCCTGTGGTGGCTGAGAGGAACGCCATGAAGAACAGCCGCCTCATCCTGTCTCTGGGAGGCCTCCTGAGATCCTTCCGCTTCCACTTCAGAGGTACRGGCTATGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGTGACTCCACCCGGGCGGAGGCCTCCCACAACATGGTGCTTCACTCCATCACTCGCAGCCATGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTAYTCCGAGTCCGCAGACGAGCTTCGGGATCGGGTGAAAGGTGTCTCTGCCAAACCCTTTATGGAGACCCAGCCCACCCTGGATGCTCTGCACTGTGACATCGGTAACGCCACTGAGTTCTACAAGATCTTTCAGGACGAGATCGGGGAGGTGTACCGGAGG------CYCAACCCAAGCAGGGAGGAGCGCCGGGGCTGGCGGGCTGCTCTGGACAAGCAGCTGAGGMGGAA GATGAAGCTGAGGCCAGTGATGAGGATGAATGGGAACTACGCCCGSCGGCTGATGASCACAGAGGCGGTGGAGGTGGTCTGTGAGCTGGTCCCCTCAGAGCAGCGGCGGGAGGCCCTCAGGGAACTGATGGGGCTCTACCTCCAAATGAAGCCTGTGTGGCGCAAGACTGTYAAYACCAAGAGAGTCATCCAGTACTTCGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATCCGARCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCGTTTGGTAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCCCGATGCACTTTCCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATTTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTGATCACCAACAATCCATATGACTACGCCTACATCTCCCAAGGAGAGGTAACGGTAGCATCCATCAATGATTCAGAGGAGTTGATAGCCACAGACAGTGCATTCGATGTCCTTGGCTTTACACAAGAGGAGAAAAATGGAATCTACAAGCTGACAGGTGCAATCATGCATTACGGCAACATGAGGTTCAAGCAAAAGCAGAGAGAGGAGCAGGCAGAGCCWGACGGCACAGAGGCTGCTGACAAGTCAGCTTACCTGATGGGCCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGAGTTAAGGTGGGCAATGAGTATGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTCGGTGCACTGGCTNNNNNNNNNAACCTCCACCCGTCCAACTGCCTGGGCATGCTGCTTCTCTCCGACGCCCATCAGTGCACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGCAAGACTGAGGACTTTCTGCAGTTGCCCAAAAACATGGCGGTGCAGCTGCTGTCTCACGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTGTACGAGGCCGCTCTCAGCTGGATCAACTACGACCTGGAGAGGCGGCACTGCCACCTGCCAGAGCTGCTGAGAACCGTCCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGGCCAGGCCAAGAGCAAGGAGGTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCACCAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACGCCCTCTTCCTGCTGGGCGGCCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACTGGAGGCAGGGGCTCTGAGAACGGAGTCTCCAAGGACGTTTGGGTGTACGACACGTCCCACGAGGAGTGGTCRAARGCGGCTCCCATGCTCATCGCCCGGTTCGGCCACGGCTCCGCAGAGCTAAAACACTGCCTCTACGTGGTAGGCGGACATACGGCCGGAACCGGCTGCCTCATAGTAGGCACAGCTCTAAGCCTCCTCATTCGAGCGGAGCTAAGCCAACCCGGCGCCCTCCTGGGGGACGACCAAATTTATAATGTCCTTGTTACAGCGCACGCCTTCGTAATAATTTTCTTTATAGTAATACCAATTATGATCGGGGGTTTTGGAAACTGACTCGTACCCCTAATAATYGGRGCCCCRGACATAGCATTTCCCCGAATAAACAACATGAGCTTCTGACTCCTTCCCCCCTCTTTTCTCCTCCTCCTCGCTTCTTCAGGAGTAGARGCKGGTGCTGGGACAGGATGAACAGTTTACCCTCCTCTCTCTGGGAACTTAGCCCACGCAGGGGCCTCCGTAGATCTAACAATCTTCTCCCTTCATCTAGCAGGGATCTCTTCGATTCTCGGGGCAATTAATTTCATTACAACCATCATTAACATGAAGCCCCCTGCGATCTCTCAGTACCAGACGCCCCTCTTCGTATGGTCCGTGCTTATCACGGCGGTCCTGCTCCTCCTCTCTCTCCCCGTCCTMGCAGCCGGTATCACCATGCTCCTGACAGACCGTAACCTTAACACGACCTTCTTYGACCCCTCCGGGGGAGGAGACCCAATCCTTTACCAACACCTGTTCTGGTTCTTTGGCCACCCCGAAGTATATATTCTWATTCTTCCCGGCTTCGGGATAATCTCGCACATTGTTGCCTACTACTCTGGTAAAAAAGAACCYTTCGGGTATATGGGCATGGTCTGAGCTATGATGGCCATCGGCCTYTTAGGCTTCATCGTGTGGGCCCACCACATGTTTACAGTGGGCATAGATGTAGACACACGMGCCTAC
208
Bathophilus pawneei AAGGTCGTGCGTTTCTCCTTCACCGTCATGACCGTCACCGTCCAGGCCGAGGACGCGGATGAGGAAATGACCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCGCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACGCTGACCGCCATCTTGGGGCCCGTGGTGGCCGAGCGGAACGCTATGAAGAGCAGCCGGCTCATCCTGTCGCTGGGGGGCCTCCAACGCTCCTTCAGCTTCCGCTTCAGGGGGACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGTTCCTCGTTCATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCATCCCGCAACATGGTGCTCCACTCCATCACCCGCAGCCACCAGGAGAACCTGGAGTGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGTTGCGCGAGCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCGGCCCGGCCTGGACGCCCTGCACTGTGACATCGGCAACGCCGCCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCGCTGTAAG------CCCCGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCCRCTCTAGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGCGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCGTCGGAGCCGCGGCGGGAGGCCCTTCGGGAGCTAATGGCGCTCTACCTCCAGATGAGGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCRGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCWGAGGAGTTGATAGCCACTGACAGTGCTTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCACTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCGGAGCCTGACGGCACGGAGGCTGCTGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGTAATGAGTTTGTCACTAAAGGGCAGGGAGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCTCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTTAACAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTACCYAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACTGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTGAACTGGGTCAATTATGACCTGGAGAGGCGGCACTGTCACTTGCCTGAGCTTTTAAGAACAGTTCGTCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATTCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGTGTGGTCAACAGCCCTCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTYATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGGAAGGAGTTCAGTGCCTGCGCCATYGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAAGCGGCACCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAGCACTGTCTCTACGTGGTGGGTGGACACACGGCCGGAACGGGCTGCCTCATAGTTGGCACAGCTCTAAGCCTGCTCATTCGAGCGGAGCTAAGCCAACCCGGCGCCCTCCTGGGGGACGACCAAATTTACAATGTCCTTGTTACAGCGCATGCGTTCGTAATAATTTTCTTTATAGTAATACCAATTATGATTGGGGGTTTTGGAAACTGGCTCGTACCCTTAATAATTGGGGCCCCGGACATAGCATTCCCCCGAATAAACAACATGAGCTTTTGACTCCTTCCCCCATCTTTTCTCCTCCTCCTTGCCTCCTCAGGAGTAGAGGCGGGGGCTGGAACAGGGTGAACAGTTTACCCCCCTCTCTCTGGTAACCTAGCCCATGCAGGTGCCTCCGTTGATTTGACAATCTTCTCCCTTCACCTAGCAGGGATTTCTTCAATCCTCGGGGCAATTAATTTCATTACGACCATCATTAACATGAAGCCCCCTGCGATTTCTCAGTACCAGACACCCCTCTTCGTCTGGTCCGTACTCATTACGGCGGTCCTACTTCTCCTCTCTCTCCCCGTCCTTGCAGCTGGAATTACCATGCTCCTAACAGATCGTAACCTTAATACCACCTTCTTCGACCCCGCCGGAGGAGGGGACCCCATCCTTTACCAACACCTGTTCTGATTCTTTGGCCACCCTGAGGTGTATATTCTTATTCTCCCCGGCTTCGGGATAATCTCACACATTGTTGCCTATTACTCTGGCAAAAAAGAACCTTTCGGATATATGGGCATGGTCTGAGCTATGATGGCCATCGGCCTTCTAGGCTTCATCGTATGGGCCCACCACATGTTTACCGTGGGAATAGATGTAGACACACGCGCCTAC
209
Bathophilus vaillanti AAGGTTGTGCGCTTCTCCTTCACCGTCATGACCGTCACCGTCCCGGCCGAGGACGCGGATGAGGCCGTTACCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGAACGCTATGAAGAGCAGCCGGCTCATCCTGTCGCTAGGGGGCCTCCAACGCTCCTTCCGCTTCTGCTTCAGGGGGACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCGCCTTCATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGCAGCCACCAGGAGAACCTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGTTGCGCGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCGGCCCGGCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACTGTAGG------CCCCGCCCCGGCCGGGAGGAGCGGCGCGGCTGGCGAGCCGCTCTAGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGCGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCGTCGGAGTCGCGGCGGGAGGCTCTTCGGGAGCTGATGGCGCTTTACCTCCAGATGAGGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACCGGCAAGTTGTCCTCTGCGGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAGATGGGAGTGTACAAGTTGACAGGTGCAATCATGCACTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCGGAGCCTGATGGCACGGAGGCTGCTGATAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTCGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGTAATGAGTTTGTCACTAAAGGGCAGGGAGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCTCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTTAACAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTACCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACTGAGGACGARAGGCTGGTCTATGAGGCCGCCCTGAACTGGGTCAATTATGACCTGGAGAGGCGGCACTGTCACTTGCCTGAGCTTCTAAGAACAGTTCGTCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTRGTCAACAGCCCACTGGCCAGGCCCAGGAAGACCAGCCATTCCCTTTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGAAAGGAGTTCAGTGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAAGCGGCACCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAGCACTGTCTCTACGTGGTGGGTGGACACACGGCCGGAACGGGCTGCCTCATAGTCGGCACTGCTCTGAGCCTGCTTATCCGAGCGGAACTCAGCCAACCCGGCGCCCTTTTAGGMGAYGACCAAATTTATAACGTTATCGTTACCGCCCACGCCTTCGTAATGATCTTCTTTATGGTAATGCCCATCATGATTGGCGGGTTCGGGAACTGACTTATCCCCCTTATAATCGGAGCCCCCGACATGGCATTTCCCCGAATGAACAACATGAGCTTCTGGCTCTTACCTCCCTCTTTCCTGCTGCTCCTGGCCTCCTCAGGAGTAGAAGCCGGGGCCGGAACGGGCTGAACCGTTTATCCGCCCCTCTCCGGCAACCTAGCGCAYGCGGGTGCCTCCGTGGACCTAACCATTTTCTCCCTACATCTGGCAGGGGTTTCTTCCATCCTTGGTGCAATTAAYTTTATCACGACAATTCTTAACATGAAACCCCCCGCTATTACCCAATACCAGACCCCCTTATTCGTCTGATCAGTTCTNATCACAGCCGTCCTACTACTGCTCTCTCTACCAGTCCTTGCGGCGGGAATCACCATGCTCCTCACAGACCGAAACTTAAACACAACCTTCTTCGACCCCGCAGGCGGGGGAGACCCCATTCTTTACCAACACCTATTCTGGTTCTTCGGGCACCCGGAGGTATACATCCTTATCCTCCCTGGATTTGGCATGATCTCCCATATTGTTGCCTACTACTCGGGGAAAAAAGAACCTTTCGGATACATGGGCATGGTCTGAGCAATAATGGCCATCGGCCTYCTNGGCTTCATTGTCTGAGCCCATCACATGTTCACCGTGGGAATGGACGTAGACACACGTGCTTAC
210
Chirostomias pliopterus AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAAGGCGCGGATGAGGCTGTCACCGTCTTCCGGGAGTCCAAGCCCAACTCTGAGTTGTCCTGTAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGAGGCCATGAAGAGCAGCCGCCTCATCCTGTCCCTGGGGGGCCTCCCCCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACCTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACRTGGAACGCTACGAGATCTGGAGGACCAACCCTTACTCGGAGTCTGTGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCTACCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACTGAGTTCTAYAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCARCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGCRCCGCRCTGGACAAGCAGCTGAGGAAGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGAAACTACGCCCGCCGGCTGATGACTGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACCTCCAGATGAAGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGTGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTCGGCAATGCTAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGAATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTTGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACTGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAAGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCCGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCTGTCGGTGCACTGGCTNNNNNNNNNNNNNNNCACCCGTCCAACTGTCYGGGAATGCTGCTGCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGCAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCACGAAGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGTTTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAAGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCACTGGCCAGGCCCCGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGTGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGAACAGGCTGCCTCATGGTCGGTACAGCTTTAAGCTTACTCATCCGAGCAGAGCTAAGTCAACCCGGTGCCCTTCTGGGCGACGACCAGATTTACAATGTTATCGTTACAGCGCACGCTTTTGTGATAATCTTCTTTATGGTCATGCCCCTCATGATTGGAGGCTTCGGGAACTGACTAATCCCCCTAATAATTGGGGCCCCAGATATAGCCTTCCCTCGAATAAACAATATAAGCTTTTGACTTCTCCCCCCCTCCTTTCTCCTTCTCCTTGCCTCTTCAGGAGTTGAGGCTGGAGCCGGGACCGGGTGGACCGTTTACCCCCCTCTTGCCGGAAACCTGGCCCACGCGGGAGCCTCCGTTGACCTGACTATCTTCTCGCTTCACCTAGCAGGAATTTCCTCGATTTTAGGGGCAATTAACTTTATTACTACAATCATTAACATGAAGCCCCCAGCCATCTCCCAGTACCAAACGCCCCTCTTCGTCTGAGCTGTTCTCGTCACCGCCGTTCTTCTCCTTTTATCCCTTCCCGTCTTAGCCGCTGGCATCACTATACTCCTCACAGACCGAAACCTAAACACAACTTTCTTTGACCCCGCGGGCGGAGGAGACCCCATTCTTTACCAACACCTCTTCTGATTCTTCGGCCACCCGGAGGTCTACATTCTAATTCTTCCAGGCTTCGGGATGATTTCCCATATTGTTGCCTACTACTCCGGGAAGAAAGAACCCTTTGGTTATATAGGAATAGTCTGAGCCATGATGGCCATCGGACTCCTTGGCTTCATCGTTTGAGCCCATCACATGTTTACCGTAGGGATGGACGTGGACACCCGAGCCTAC
211
Echiostoma barbatum AAGGCAGTGCGCTTCTCCTTCACCGTGATGTCCGTCTCCGTCCAGGCCGAGGGCGCAGACGAGGCAGTCACTGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGTCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGAACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACATGGAGCGCTATGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGCGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGACGCCCTGCACTGCGACATCAGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGTGGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAATGGGAACTATGCCCGGCGGCTGATGAGCATGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGATGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAAGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCGCTGGAGGCTTTCGGCAACGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTTGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGATAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAAGCTGAGCCCGACGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATCGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAAGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTTACTTGCCAGAGCTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCTATCCGCTGCAAGCTGAGGATCCTGCAAAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTTGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTATGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGTTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGCCACACGGCCGGAACAGGCTGCCTNATGGTCGGCACGGCCTTAAGCCTGCTTATCCGAGCAGAATTAAGTCAACCCGGCGCCCTTCTAGGCGACGACCAGATCTATAACGTTATCGTTACAGCACATGCTTTCGTTATAATTTTCTTTATAGTGATACCCATCATAATTGGGGGCTTCGGGAATTGATTAATCCCCCTCATGATCGGGGCCCCTGACATGGCTTTCCCACGAATGAATAATATGAGCTTCTGACTTCTACCCCCCTCGTTCCTTCTTCTTCTTGCCTCCTCGGGTGTCGAGGCCGGGGCTGGCACAGGATGAACCGTCTATCCCCCTCTTGCCGGGAACTTAGCTCATGCAGGGGCCTCAGTAGACCTGACAATCTTCTCTCTTCATCTGGCGGGAATCTCTTMTATTCTTGGAGCAATCAACTTCATCACCACAATTATTAACATGAAGCCCCCAGCCATCTCCCAATACCAGACTCCTCTTTTCGTGTGAGCCGTTTTAATTACCGCCGTTCTTCTTCTCCTGTCTCTCCCGGTCTTAGCCGCCGGGATTACTATGCTCCTCACCGACCGTAACCTTAATACAACCTTTTTCGACCCGGCAGGCGGCGGGGACCCGATCCTCTATCAACATCTCTTCTGATTTTTTGGGCACCCAGAAGTCTATATTTTAATTCTCCCAGGCTTTGGAATAATTTCCCACATCGTTGCTTACTATTCAGGGAAAAAAGAACCCTTTGGCTATATAGGGATAGTNTGAGCCATGATGGCCATTGGACTCCTCGGGTTCATCGTCTGAGCCCATCACATGTTTACAGTCGGAATAGATGTAGACACTCGAGCCTAC
212
Eustomias filifer AAGGCTGTGCGTTTCTCCTTCACTGTCATGTCCATCTCCGTCCAGGCAGAGGGCATGGAAGAGGCCGTCACCGTCTTCCAAGAATCCAGGCCCAACTCTGAGATGTCCTGCAAGCCCCTGTGCTTGATGTTCGTTGACGAATCCGACCACGAAACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCCTTGGGGGGCCTCCCCTGCTCCTTCCGCATCCATTTCAGAGGCACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAKGCCTCAGGCTCCACGTACATCTGCACCCTCTGCGACTCTACCCGGGCAGAAGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAAAACCTGGAGCGCTACGAGGTCTGGAGGACCAACCCCTACTCGGAATCGGCGGAAGAGCTGCGCGAGCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCACCCCAGCCTGGATGCCCTGCACTGTGACATCGCCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCACAGG------CCCCGCCCCAGTCGGGAAGAGCGGCGCAGCTGGCGAGCAGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGACGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTAGTCCCCTCAGAGTCGCGGCGGGAGGCCTTGCGAGAGCTGATGGCGCTCTACCTCCAGATGAGGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCTTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATACGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAAGAGTTGATGGCCACTGACAGTGCGTTCGATGTGCTAGGCTTTACACAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTATGGCAACATGAAATTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACTCCCTTGGTGCACTGGCACTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAAGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAACTACTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGAATCCTGCAAAACGAGGGTGTGGTCAATAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTAGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATTGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGCGTGTCCAAAGACGTGTGGGTCTACGACACGTCCCACGAGGAGTGGTCAAAGGCTGCGCCCATGCTCATTGCCCGCTTTGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACAGCCGGAACAGGCTGCCTCNNNNNNNNNACGGCTTTAAGCCTACTCATCCGAGCCGAACTAAGCCAACCCGGCGCCCTCTTAGGAGACGACCAAATTTAYAATGTAATCGTTACAGCACATGCYTTCGTAATAATCTTCTTTATAGTAATGCCMGTTATAATTGGGGGTTTTGGRAAYTGACTTATYCCCCTAATAATCGGGGCCCCCGATATRGCATTCCCACGCATAAACAACATAAGCTTCTGACTYCTACCTCCCTCTTTTCTTCTCCTACTAGCCTCCTCAGGTGTTGAAGCTGGAGCCGGAACAGGGTGGACCGTCTATCCCCCTCTCGCCGGCAATTTAGCYCACGCCGGAGCCTCYGTCGACTTAACAATCTTTTCCCTCCATCTKGCAGGCATTTCCTCAATCCTTGGTGCAATCAACTTTATTACCACCATTATTAATATGAAACCTCCAGCCGCCTCGCAGTATCAGACACCCCTCTTCGTCTGAGCTGTCCTAATTACCGCTGTCCTTCTCCTCCTCTCCCTCCCAGTCTTAGCTGCCGGCATCACCATGCTTCTAACAGATCGAAATCTAAATACAACCTTCTTTGACCCCGCCGGAGGAGGGGACCCCATCCTCTACCAACACCTCTTTTGATTCTTCGGTCACCCCGAAGTTTATATTCTAATCCTCCCCGGCTTTGGTATAATYTCACACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTTGGATACATGGGCATAGTTTGAGCTATAATAGCCATCGGGCTCCTAGGCTTTATTGTCTGAGCCCATCATATGTTTACAGTCGGAATAGACGTAGACACCCGAGCCTAT
213
Eustomias furcifer AAGGCTGTGCGTTTCTCCTTCACTGTCATGTCCATCTCCGTCCAGGCCGAGGGCATGGAAGAGGCCGTCACCATCTTCCAAGAATCCAGGCCCAACTCTGAGATGTCCTGCAAGCCCCTGTGCTTGATGTTCGTTGACGAATCCGACCACGAAACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCCTTGGGGGGCCTCCCGTGCTCCTTCCGCTTCCACTTCAGAGGCACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCTACCCGGGCAGAAGCGTCCCGCAACATCGTGCTCCATTCCATCACCCGTAGCCACGAGGAAAACCTGGAGCGCTACGAGGTCTGGAGGACCAACCCCTACTCGGAATCGGCGGACGAGCTGCGCGAGCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCACCCCAGCCTGGATGCCCTGCACTGTGACATCGCCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCAGAGG------CCCCGCCCCAGTCGGGAAGAGCGGCGCAGCTGGCGAGCAGCGTTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGACGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTAGTCCCCTCAGAGTCGCGGCGGGAGGCCTTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCTTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAAGAGTTGATGGCCACTGACAGTGCGTTCGATGTGCTAGGCTTTACACAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACTGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGYTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAAGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTACTAARAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGAATCCTGCAAAACGAGGGTGTGGTCAATAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTAGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATTGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGCGTGTCCAAAGACGTGTGGGTCTACGACACGTCCCACGAGGAGTGGTCCAAGGCTGCGCCCATGCTCATTGCCCGCTTTGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACAGCCGGAACAGGCTGCCTCATAGTGGGACAGGCCCTAAGCCTGCTTATTCGAGCTGAACTAAGCCAACCTGGCGCTCTTCTTGGAGACGACCAGATCTACAATGTAATTGTTACGGCACATGCCTTCGTAATAATTTTCTTTATAGTAATACCAATCATAATTGGAGGCTTCGGAAACTGACTCATCCCCCTAATGATCGGTGCCCCTGATATGGCATTCCCTCGAATAAACAACATAAGCTTCTGACTTCTTCCCCCCTCYTTCCTTCTCCTTCTAGCCTCTTCCGGGGTTGAAGCTGGGGCCGGGACCGGATGAACAGTCTACCCCCCTCTGGCTGGTAATTTAGCCCACGCCGGAGCTTCTGTTGACCTAACTATTTTTTCCCTCCACCTGGCAGGGGTTTCTTCAATYCTYGGGGCAATTAACTTTATCACAACAATTATTAACATAAAACCCGCAGCCATCTCCCAGTATCAAACACCCCTTTTCGTTTGATCCGTTTTAATTACAGCCGTCCTTCTTCTTCTATCCCTTCCCGTTCTCGCTGCCGGRATYACAATGCTTCTTACAGACCGAAACCTGAACACAACTTTTTTTGACCCTGCAGGAGGAGGAGACCCAATCCTTTACCAACACCTATTCTGATTCTTCGGCCACCCAGAAGTCTACATTCTGATTCTACCAGGGTTTGGAATAATTTCACACATTGTTGCCTATTACTCAGGCAAAAAAGAACCTTTCGGACACATGGGAATGGTTTGAGCTATGATGGCCATTGGCCTCCTAGGGTTTATTGTATGAGCCCACCACATGTTCACGGTAGGGATAGACGTAGACACCCGTGCATAY
214
Eustomias jimcraddocki AAGGCTGTGCGTTTCTCCTTCACTGTCATGTCCATCTCCGTCCAGGCAGAGGGCATGGAAGAGGCCGTCACCGTCTTCCAAGAATCCAGGCCCAACTCTGAGATGTCCTGCAAGCCCCTGTGCTTGATGTTCGTTGACGAATCCGACCACGAAACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCCTTGGGGGGCCTCCCCTGCTCCTTCCGCATCCATTTCAGAGGCACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCAGGCTCCACGTACATCTGCACCCTCTGCGACTCTACCCGGGCAGAAGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAAAACCTGGAGCGCTACGAGGTCTGGAGGACCAACCCCTACTCGGAATCGGCGGAAGAGCTGCGCGAGCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCACCCCAGCCTGGATGCCCTGCACTGTGACATCGCCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCACAGG------CCCCGCCCCAGTCGGGAAGAGCGGCGCAGCTGGCGAGCAGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGACGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTAGTCCCCTCAGAGTCGCGGCGGGAGGCCTTGCGAGAGCTGATGGCGCTCTACCTCCAGATGAGGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGTGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTTGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCTTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATACGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAACGATTCTGAAGAGTTGATGGCCACTGACAGTGCGTTCGATGTGCTAGGCTTTACACAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAGGGCCTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCAGTCCAACTGCCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAAGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAACTACTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGAATCCTGCAAAACGAGGGTGTGGTCAATAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTAGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATTGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGCGTGTCCAAAGACGTGTGGGTCTACGACACGTCCCACGAGGAGTGGTCCAAGGCTGCGCCCATGCTCATTGCCCGCTTTGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACAGCCGGAACAGGCTGCCTCATAGTAGGCACTGCTCTAAGCCTGCTTATTCGAGCTGAACTCAGCCAACCTGGAGCCCTCCTGGGAGAYGATCAAATTTAYAACGTAATCGTTACAGCTCACGCTTTCGTAATGATCTTCTTTATGGTAATACCTATCATGATYGGAGGCTTTGGTAACTGACTCATCCCTCTAATGATCGGGGCCCCCGATATGGCATTCCCWCGAATGAACAACATGAGCTTCTGACTCCTCCCCCCTTCTTTCCTTCTCCTCCTGGCCTCATCTGGYGTAGAAGCCGGAGCAGGCACTGGATGAACAGTCTACCCTCCCCTAGCAGGCAACCTCGCCCACGCWGGGGCCTCCGTAGACCTAACTATCTTCTCCCTCCACCTGGCTGGTATTTCATCAATTCTAGGGGCTATTAACTTTATTACAACTATTATTAATATGAAACCCCCAGCCATTTCTCAATACCAGACACCTCTATTTGTGTGATCTGTATTAATTACAGCCGTTCTCCTCCTCCTTTCCCTCCCTGTCCTGGCCGCAGGAATTACAATGCTCYTAACAGACCGAAACCTAAATACTACCTTCTTTGACCCCGCTGGAGGAGGAGACCCCATTCTATACCAACACCTGTTCTGGTTCTTCGGACACCCTGAAGTCTACATTTTAATTCTACCGGGCTTTGGCATGATCTCACACATCGTTGCATACTACTCAGGCAAAAAAGAACCATTCGGATACATGGGCATGGTCTGAGCCATGATGGCCATCGGCCTCCTAGGCTTTATTGTATGAGCCCACCACATATTCACTGTAGGGATGGACGTAGACACCCGAGCTTAC
215
Eustomias polyaster NNNNNNNNNCGTTTCTCTATTACTATTATGTCTGTCTCTGTCCTGGCCGATGGGAAGGAGGAGGCCGTTACCATCTTCCCAGAACCCAAGCCGAACTCTGAACTGTCCTGTAAGCCCCTTTGCTTGATGTTTGTTGATGAATCCGACCACGAAACGCTCACAGCTCTCCTGGGGCCCGTGGTGGCCGAGCGTGATGCCATGAAGAACAGCAGCCTCATCCTGTCAATGGGCGGCCTGCCTCGCTCCTTCCGCTTCCACTTCAGAGGTACGGGATACGATGAGAAGATGGTGCGAGAGATGGAGGGCCTGGARGCCTCRGGGTCCACCTACGTCTGCACYCTGTGYGACTCYACCCGGGCAGAAGCRTCYCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGARGACAAYCTGGAACGTTACGAAGTATGGAGGACCAACCCCTACTCTGAATCGGCAGACGAGCTGCGCGAGAGAGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCACCCCACCCTGGATGCCTTGCATTGTGACATCGCCAATGCCAYYGAATTCTACAAGATCTTCCAGGACGAGATCGGAGAGGTGCACCAGAGG------CCCAGTCCCAGTCGGGAAGAGCGGCGCAGCTGGAGAGCTGCCCTGGACAAGCAGCTGAGGAGGAR GATGARGCTGAGGCCCGTGATGAGGATGAAYGGGAACTACGCCCGACGGCTGATGAGCCTGGAGGCTGTGGAGGCCGTGTGCGAGCTCGTCCCCTCAGAGTCGAGGAGGGAGGCCCTGAGGGAGCTCATGACGCTATACCTCCAGATGAAGCCGGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGTGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGTAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCTTCTGCTGACATAGAGACTTACCTCCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAAGAGTTGATGGCCACTGACAGTGCGTTCGATGTGCTMGGCTTTACACAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTGGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCAACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGCCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGYACCAAGCTATCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCTGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGTAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAAGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTACTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGAATCCTGCAAAACGAGGGTGTGGTCAATAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTAGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATTGGCTGCAAGGTCTACATCACYGGAGGCAGGGGCTCTGAGAACGGCGTGTCCAAAGACGTGTGGGTCTACGACACGTCTCACGAGGAGTGGTCAAAGGCTGCGCCCATGCTCATCGCCCGCTTTGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACAGCCGGAACAGGCTGCCTCNNNNNNNNNACAGCCCTAAGCCTCCTCATCCGAGCTGAACTAAGTCAACCAGGTGCCCTCCTTGGAGAYGACCAGATCTATAACGTAATCGTTACAGCACATGCCTTCGTAATGATTTTCTTTATAGTAATGCCCATTATGATCGGAGGGTTCGGAAACTGAYTAATTCCCCTAATGATCGGGGCCCCCGATATGGCTTTCCCCCGAATAAACAATATGAGCTTTTGACTCCTCCCCCCCTCGTTCCTTCTTCTGCTAGCTTCTTCAGGAGTCGAATCTGGGGCCGGAACAGGATGAACAGTGTATCCGCCTCTCGCAGGCAACTTAGCCCACGCAGGCGCATCCGTAGACTTAACCATTTTTTCTCTACACTTGGCAGGTATCTCCTCAATTCTTGGGGCAATTAACTTCATCACTACAATTATTAACATAAAACCTGCAGCCATCTCGCAATACCAAACCCCACTGTTTGTCTGAGCAGTTCTTATTACTGCCGTTCTCCTCCTCCTCTCCCTCCCAGTCCTGGCTGCTGGCATYACAATGCTACTTACAGACCGAAACCTTAATACAACCTTCTTTGACCCCGCGGGAGGGGGAGACCCAATCYTGTATCAACACCTCTTCTGATTCTTCGGGCACCCGGAAGTTTATATTTTAATTCTTCCAGGCTTCGGAATRATCTCTCACATTGTTGCTTACTACTCCGGTAAAAAAGAACCTTTCGGACACATGGGAATGGTCTGAGCAATAATRGCMATCGGACTCCTAGGGTTTATCGTCTGAGCCCATCACATRTTYACCGTAGGGATAGACGTAGATACACGAGCATAC
216
Flagellostomias boureei AAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACTGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCTGACCACGAGACGCTGACGGCCATCCTGGGGCCCTTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCAGCGCTCCTTCCGCTTCCATTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAATCCCTACTCAGAGTCGGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGATGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCAGAGG------CCCAGCCCCAGCCGGGAGGAGCGSCGTGGCTGGCGAGCCGCACTGGACAAGCAGCTAAGGAGGAA GATGAAGCTGAGGCCTGTGATGAGGATGAACGGGAACTACGCCCGGCAGCTGATGAGCRTGGAGGCGGTGGAGGCCGTCTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAAAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGYAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAMAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACCGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAAAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACRGAGGCTGCTGACAAGTCAGCTTACCTCATGGGGCTGAACTCTGCAGATCTAGTSAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCYATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAATGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCTGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCTGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGCCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGTTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACAAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCTTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGGAGGGGCTCGGAGAACGGCGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCATGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCTTCYTTCCTNCTTCTNCTAGCCTCTTCNGGGGTAGAAGCCGGAGCCGGGACAGGATGAACTGTYTACCCCCCTCTTGCMGGGAACTTAGCYCACGCAGGAGCCTCCGTNGACYTAACWATCTTCTCCCTCCACCTNGCAGGAATTTCCTCAATTCTAGGGGCAATCAACTTCATCACAACTATTATCAACATGAAGCCCCCCGCNATCTCNCAGTACCARACACCCCTCTTCGTCTGAGCNGTCCTAATTACNGCTGTCCTTCTNCTTCTTTCYCTTCCAGTCCTAGCCGCNGGCATCACCATGCTTCTAACNGACCGAAACCTCAACACMACCTTCTTTGACCCCGCAGGRGGRGGAGACCCCATYCTWTACCARCACYTTTTCTGATTCTTTGGCCACCCAGARGTNTACATYCTNATYCTYCCAGGCTTYGGAATAATWTCCCACATCGTTGCCTACTACNCAGGAAAAAAAGAACCYTTCGGCTACATRGGAATGGTATGAGCCATGATGGCCATCGGACTYCTNGGCTTTATYGTCTGAGCCCACCACATGTTTACRGTRGGAATGGANGTAGACACCCGAGCCTAC
217
Grammatostomias flagellibarba AAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACGAGGATGTCACCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGAGGCCTTCCACGCTCCTTCCGCTTCCACTTCAGGGGAACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGGTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCAGAAGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTTGGAGTCGGCGGACGAGCTGCGTGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCGGCCTGGACGCCTTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGATGAGATCGGGGAGGTGCACCGTAGG------CCCCGCCCCAGCCGGGATGAGCGGCGCGGCTGGCGAGCAGCGCTGGACAAGCAACTGAGGAGGAA GACGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGTGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGAGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCRGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCTCGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTATTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTATGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACRGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGAGTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTAGAGAGGAACCTGCACCCGTCCAACTGTCTAGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACAAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGATGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATTAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGTAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGAAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTATACATCACCGGAGGCAGRGGCTCTGAGAACGGGGTCTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTAATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGAACAGGCTGCCTCATAGTGGGTACAGCCTTAAGCCTGCTTATCCGAGCTGAACTAAGTCAACCAGGCGCTCTTCTCGGAGACGATCAGATCTACAATGTAATTGTTACGGCCCATGCCTTCGTAATAATCTTCTTTATAGTAATACCAATCATAATTGGAGGGTTCGGAAACTGGCTTATCCCTCTAATGATCGGTGCCCCCGATATGGCATTCCCTCGAATAAACAATATAAGCTTCTGACTTCTTCCCCCCTCTTTCCTCTTACTCCTAGCCTCTTCCGGGGTTGAAGCTGGCGCCGGTACTGGGTGGACAGTCTATCCTCCTTTGGCTGGTAATCTCGCTCACGCCGGAGCATCCGTTGATTTAACTATTTTTTCCCTCCACCTGGCAGGTGTTTCCTCAATCCTCGGGGCGATCAACTTCATCACAACAATTATTAACATAAAACCCGCAGCCATCTCCCAGTATCAAACACCCCTATTCGTATGATCCGTCCTAATTACAGCTGTCCTTCTCCTCCTGTCCCTGCCAGTCCTCGCTGCTGGTATCACAATGCTGCTTACAGACCGAAACCTAAACACAACCTTTTTTGACCCTGCAGGTGGTGGAGACCCAATCCTTTACCAACACTTATTCTGATTCTTCGGTCACCCAGAAGTCTATATTCTTATTCTCCCCGGGTTTGGTATAATTTCCCACATTGTTGCCTATTATTCTGGCAAAAAAGAACCTTTTGGCTACATAGGAATAGTGTGAGCTATAATAGCTATCGGTCTACTAGGGTTTATTGTATGGGCCCATCATATATTCACAGTAGGTATAGACGTAGACACCCGTGCCTAY
218
Leptostomias gladiator AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACAAGGCCGTCACTGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCGTCCCACAACATGGTGCTCCACTCYATCACCCGTAGCCACGACGAGAACRTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGATGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGGCCAGCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGATGAA GATGAAGCTGAGGCCCGTGATGAGGATAAACGGGAACTAYGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTCTGCGAGCTGGTGCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGTGGAGCA------AAAAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTSGAGGCTTTYGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCCGCTTACCTCATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGYATGTGCCTCAGCAACTTTCCCRCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCTGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCTGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACYGTTCGCCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCTTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGGAGGGGCTCKGAGAACGGCGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAGCACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATGGTGGGCACGGCTTTAAGCCTRCTCATCCGAGCCGAACTAAGCCAACCCGGCGCCCTCTTAGGAGACGACCAAATTTATAATGTAATCGTTACAGCACATGCTTTCGTAATAATCTTCTTTATAGTAATGCCCGTTATAATTGGGGGTTTTGGGAATTGACTTATTCCCCTAATAATCGGGGCCCCCGATATAGCATTCCCACGCATAAACAACATAAGCTTCTGACTCCTACCTCCTTCTTTTCTTCTCCTACTAGCCTCCTCAGGTGTTGAAGCTGGAGCCGGAACAGGGTGGACCGTCTATCCCCCTCTCGCCGGCAATTTAGCCCACGCCGGGGCCTCCGTCGACTTAACAATCTTTTCCCTCCATCTTGCAGGCATTTCCTCAATCCTTGGTGCAATCAACTTTATTACCACCATTATTAATATGAAACCTCCCGCCGCCTCGCAGTATCAGACACCCCTCTTCGTCTGAGCTGTCCTAATTACCGCTGTCCTTCTCCTCCTCTCCCTCCCAGTCTTAGCTGCCGGCATCACCATGCTTCTAACAGATCGAAATCTAAATACAACCTTCTTTGACCCCGCCGGAGGAGGGGACCCCATCCTCTACCAACACCTCTTTTGATTCTTCGGTCACCCCGAAGTTTATATTCTAATCCTCCCCGGCTTTGGAATAATCTCACACATTGTTGCCTACTACGCAGGGAAAAAAGAACCCTTTGGATATATGGGCATAGTTTGAGCTATAATAGCCATCGGGCTCCTGGGCTTTATTGTCTGAGCCCATCATATGTTCACAGTCGGAATAGACGTAGACACCCGAGCCTAY
219
Leptostomias longibarba AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACAAGGCCGTCACCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCGTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGACGAGAACGTGGAGCGCTAYGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGGCCAGCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGGAA RATGAAGCTGAGGCCYGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTCTGCGAGCTGGTSCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAAAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACWGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCCGCTTACCTCATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTNNNNNNNNNNNNCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCTGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCTGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGCCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCTTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGGAGGGGCTCAGAGAACGGCGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAGCACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATAGTTGGTACCGCCTTAAGCTTACTAATTCGAGCAGAACTAAGTCAACCCGGAGCCTTGCTAGGAGATGATCAAATTTATAATGTCATCGTCACTGCACATGCCTTTGTAATAATTTTCTTTATAGTTATACCCTTAATAATTGGAGGATTTGGCAACTGACTAATCCCCTTAATGATCGGAGCCCCCGACATGGCCTTCCCACGAATAAATAATATAAGCTTCTGACTTCTCCCTCCCTCTTTCCTCCTACTCTTAGCCTCCTCAGGTGTCGAAGCGGGTGCCGGAACAGGGTGAACTGTCTATCCCCCTCTAGCAGGCAATCTTGCCCACGCGGGGGCCTCTGTGGACCTAACTATTTTCTCCCTACACCTTGCAGGAATTTCCTCAATTCTAGGAGCTATTAACTTTATTACCACAATTATTAATATGAAACCCCCTGCAATCTCCCAATATCAAACCCCTTTATTTGTATGAGCCGTCTTAGTTACAGCAGTCCTACTCCTTCTTTCCCTCCCTGTTCTTGCTGCTGGCATTACAATGCTTCTAACGGACCGAAATCTTAATACAACCTTCTTTGACCCCGCCGGAGGMGGAGACCCAATCCTTTATCAACATCTCTTCTGATTTTTCGGACACCCAGAAGTTTATATTCTTATTCTCCCTGGCTTTGGTATAATCTCACAYATCGTTGCCTACTACTCAGGAAAGAAAGAACCCTTTGGCTACATAGGCATGGTTTGAGCAATAATGGCCATTGGACTATTAGGCTTCATTGTCTGAGCACATCACATGTTTACAGTAGGGATGGACGTAGACACCCGAGCATAC
220
Melanostomias bartonbeani AAGGCTGTACGTTTCTCTATCACTATTATGTCTGTCTCTGTCCTGGCAGATGATGAGGAGGAGGCGGTTACTATCTTCAMGGAGCCAAAGCCAAACTCAGAACTGTCCTGTAAGCCCCTTTGCCTGATGTTTGTGGATGAATCAGACCATGAAACACTCACAGCTCTCCTGGGACCTATAGTTGCAGAACGTAATGCAATGAAAGACAGCAGGCTCATCCTTTCCATCGGTGGCCTGCCTCGCTCCTTCCGCTTCCACTTCAGAGGCACGGGATACGATGAGAAGATGGTGCGAGAGATGGAGGGCATGGAGGCCTCAGGGTCCAGCTATGTCTGCACGCTGTGTGATTCCAGTCGGGCAGAGGCATCTCAAAACATGGTGCTACACTCCATCACCCGTAACCATGAAGAGAACCTTGAACGTTACGAAATATGGAGAACCAACCCCTTTTCTGAGTCTGGAGAAGAGCTGCGGGAGAGAGTCAAAGGGGTGTCTGCCAAGCCCTTCATGGAGACTCAGCCCACSATGGATGCATTACATTGTGACATTGGCAATGCCACTGAGTTCTACAAAATCTTCCAGGATGAAATTGGGGAGGTGTATCAAAAG------GTCAATCCCAGCCGGGAGGAACGGCGTAGCTGGAGGGCAGCCCTAGATAAACAGCTGAGGAAGAA GATGAAGCTTAAACCGGTAATGAGGATGAATGGGAACTATGCCCGCAGGCTAATGACCCAGGAGTCTGTGGAGGTGGTGTGTGAGCTGGTGCCCTCAGAGGAGAGGAGGGAGGCCCTGAGGGAGCTTATGAGGCTATACCTCCAGATGNNNNNNNNNNNNNNNAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAAGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGWACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCARCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGCTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGATCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCACCATTTGTAAGACTGAGGATTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGATGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCAGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTTTCCAAAGATGTTTGGGTCTATGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATTGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNGGAACAGCCTTAAGCCTGCTCATYCGAGCTGAATTAAACCAACCAGGMGCCYTTCTAGGGGAYGAYCAAATCTACAAYGTAATTGTTACAGCACATGCTTTCGTAATAATTTTCTTTATAGTAATACCAATYATGATTGGAGGGTTTGGAAACTGACTTATCCCCCTAATGATTGGRGCTCCAGACATRGCATTTCCCCGAATAAATAACATAAGCTTTTGACTACTTCCTCCTTCTTTCCTTCTACTTCTAGCTTCCTCCGGGGTAGAGGCTGGCGCTGGGACCGGATGAACTGTATACCCTCCCCTAGCTGGTAACCTAGCCCACGCTGGGGCCTCCGTTGATCTAACCATTTTCTCCCTTCACTTAGCAGGGGTGTCCTCAATCCTAGGGGCTATCAATTTYATCACAACAATTATTAACATGAAACCCCCAGCCATTTCTCAATATCAAACACCCCTCTTTGTCTGATCAGTYYTAATTACAGCAGTCCTTCTTCTMCTATCTCTACCAGTTCTTGCAGCAGGAATTACCATGCTCCTTACAGACCGAAACCTAAACACAACATTTTTTGACCCGGCAGGGGGAGGAGACCCCATTCTTTATCAACACTTATTCTGATTCTTTGGTCATCCAGAAGTATACATCCTTATTCTTCCAGGATTCGGAATAATTTCTCACATCGTTGCATATTACGCCGGCAAAAAAGAACCCTTTGGATATATGGGCATGGTATGAGCTATAATAGCCATTGGCCTACTAGGTTTCATCGTATGAGCCACACCACATGTTACAGTAGGGATGGACGTAGACACACGAGCNNNN
221
Odontostomias micropogon AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACRAGGCCGTCACCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCTGACCACGAGACGCTGACGGCCATCYTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTGCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGATGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACRRCGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGAYGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCAGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGCAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTCTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCGGCGGAGCA------AAAAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCAYTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACTGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAAAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACRGAGGCTGCTGACAAGTCAGCTTACCTCATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGGATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCTGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCTGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCAAGAGCTGCTAAGAACCGTTCGCCTGGCCTTGCTGCCTGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCTTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGGAGGGGCTCAGAGAACGGCGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATGGTCGGCACGGCTTTAAGCCTGCTTATCCGAGCGGAGCTGAGCCAGCCCGGTGCCCTTCTTGGCGACGACCAAATTTATAATGTTATCGTTACAGCACATGCTTTCGTTATAATTTTCTTTATAGTGATGCCTGTCATAATTGGAGGCTTCGGAAACTGACTGATCCCCCTCATGATCGGGGCCCCAGACATGGCCTTCCCCCGAATAAATAACATGAGTTTTTGACTTCTCCCCCCTTCCTTCCTTCTCCTCCTCGCCTCTTCAGGCGTTGAAGCTGGGGCAGGAACAGGGTGAACCGTTTACCCCCCTCTTGCCGGAAACCTGGCTCATGCAGGGGCTTCAGTAGACCTTACAATCTTCTCCCTCCACCTTGCGGGGATCTCTTCAATTCTTGGGGCAATTAACTTCATTACTACAATCATTAATATGAAACCCCCAGCTATCTCCCAATATCAAACGCCCCTTTTCGTTTGATCTGTACTTATCACCGCTGTCCTTCTTCTTTTATCCCTTCCTGTTCTCGCCGCTGGAATCACTATGCTCCTTACCGACCGAAATCTCAACACAACTTTCTTTGACCCAGCAGGGGGTGGAGACCCCATTCTCTATCAGCACCTCTTCTGATTCTTCGGCCACCCGGAGGTCTATATTCTTATCCTCCCAGGCTTCGGAATGATCTCCCACATTGTTGCTTACTACGCAGGGAAAAAAGAACCTTTCGGCTACATAGGAATGGTTTGGGCTATGATGGCTATTGGACTTCTTGGCTTCATCGTCTGAGCCCACCACATGTTTACAGTGGGGATGGATGTAGACACTCGAGCCTAC
222
Photonectes braueri AAGGCCGTGCGCTTCTCCTTCACCATCATGTCTGTCTCCGTCCAGGCCGAGGGCGYGGACGAGGCCGTCCTCGTCTTCCGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAACCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAACAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGTGCTCCTTCCGCTTCCACTTCAGGGGGACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGCGACTCCACCCGGGCAGAGGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGCGACCGCGTGAAGGGTGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGACGCTCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGTGGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGCAR GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGACGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGGAAGACCGTCAACACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCYAAAACATTGAGAAATGACAACTCCTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACAGAGGCTGCTGACAAGTCAGCGTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTTTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGAYGAGAGGCTGGTCTATGAGGCCGCMCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTTACTTGCCAGAGCTGCTGAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGYAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTYAGTGCCTGCGCCATCGGCTGCAAGGTYTTCATCACCGGAGGCAGRGGCTCTGAGAACGGGGTCTCCAAAGATGTKTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATTGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNNNNNNNNNNNNNAGCCTGCTTATCCGAGCAGAGCTGAGTCAACCCGGTGCCCTTCTAGGCGACGACCAGATCTATAATGTTATCGTCACAGCACATGCTTTCGTTATAATTTTCTTTATAGTAATGCCCATCATAATTGGAGGCTTTGGAAACTGGCTGATCCCCCTTATGCTTGGTGCCCCTGATATGGCTTTCCCTCGAATGAACAACATAAGCTTCTGGCTTCTGCCCCCTTCCTTCCTACTTCTCCTTGCCTCTTCAGGCGTTGAGGCTGGGGCCGGGACAGGGTGGACTGTTTACCCCCCTCTTGCCGGAAACCTAGCTCACGCAGGGGCCTCAGTTGACCTAACAATCTTCTCCCTTCATCTGGCCGGGATCTCCTCCATTCTTGGAGCAATTAACTTTATTACCACAATCATTAACATGAAACCCCCATCTATCTCCCAATACCAGACGCCCCTCTTTGTCTGAGCCGTGCTAATCACCGCCGTCCTTCTCCTCTTATCCCTCCCAGTTCTAGCCGCCGGGATTACTATGCTTCTTACAGATCGCAACCTTAACACAACCTTCTTTGACCCGGCAGGGGGTGGGGACCCGATCCTTTATCAACACCTCTTCTGGTTCTTCGGACACCCAGAGGTTTATATTTTAATTCTCCCCGGATTCGGAATAATCTCCCACATCGTTGCTTACTATTCAGGTAAAAAAGAACCCTTCGGATACATAGGAATGGTCTGAGCCATGATGGCCATCGGGCTCCTCGGCTTTATCGTCTGAGCCCACCATATGTTCACAGTAGGGATAGATGTAGACACTCGAGCCTAC
223
Photonectes margarita AAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTCCGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCAGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGCCGCCATGAAGAACAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCAGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCAGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCTTACTCGGAGTCGGTGGACGAGCTGCGTGACCGGGTGAAGGGTGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGACGCTCTGCACTGTGACATCGGCAACGCCACCGAATTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCAAGCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCKCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCTGCAGTKGGYGGRGCR------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACACTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCAGACATAGAGACKTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATAYGACTACTCCTTCATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAAAAAATGGGAGTCTACAAGTTGACAGGYGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCRGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTTTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAACTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGTGCCTGCGCCATCGGCTGCAAGGTCTTCATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATGGTCGGCACGGCCTTAAGCCTGCTTATCCGGGCGGAACTTAATCAACCCGGCGCCCTTCTAGGMGACGACCAAATTTATAATGTTATCGTTACAGCACATGCTTTCGTCATAATCTTCTTTATAGTTATACCCATCATGATCGGAGGCTTTGGGAACTGACTAATTCCCCTCATGATTGGGGCCCCCGACATGGCGTTCCCTCGCATGAAYAATATGAGCTTTTGACTCTTGCCCCCCTCTTTTCTCCTCCTTCTTGCCTCCTCAGGAGTTGAAGCCGGGGCCGGGACAGGGTGAACTGTTTACCCCCCACTTGCCGGAAACTTGGCCCACGCGGGGGCCTCAGTGGACCTCACAATCTTCTCCCTCCACCTAGCAGGGATCTCTTCAATTCTCGGAGCAATTAACTTCATTACTACAATTATTAATATAAAACCCCCAGCTCTCTCCCAGTACCAAACGCCCCTGTTCGTCTGAKCTGTGCTAGTAACCGCTGTTCTCCTACTCCTGTCCCTCCCAGTCCTGGCCGCCGGAATCACTATGCTTCTTACTGACCGCAACTTAAACACAACCTTTTTTGACCCGGCAGGGGGCGGAGACCCAATCTTATACCAACACCTCTTCTGATTCTTCGGACACCCAGAAGTTTACATTTTAATCCTCCCAGGCTTCGGAATAATCTCGCACATCGTTGCTTACTATTCAGGGAAAAAAGAACCATTTGGCTACATAGGAATGGTGTGAGCTATAATAGCCATCGGACTCCTAGGCTTTATTGTCTGAGCCCATCACATGTTCACGGTAGGAATAGACGTGGAYACTCGGGCCTAC
224
Tactostoma macropus AAAGCYGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCTGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCGGGAGTCCCGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGCGGGCCGAGAGGAACGCCATGCAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACGTGGAGCGCTAYGAGACCTGGAGGACCAACCCCTACTCGGAGTCGGCGGATGAGCTGCGCGACCGAGTGAAGGGCGTCTCAGCCAAGCCCTTCATGGAGACCCATCCCAGCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATMGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGCAA GATGAAGCTGAGGCCCGTGATGAGGATGAATGGGAACTACGCCCGGCGGCTGATGAGCGTGGMGGCGGTGGAAGCCGTGTGCGAGCTGGTCCCCTCGGAGCCRCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCYGTGTGGCGCAAGACCGTCAATACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCAAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCAGTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACSTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAAGTAACAGTAGCATCCATCAATGACTCTGAGGAGTTGATGGCTACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAATCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAGAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGTTGCTGACAAGGCAGCTTACCTCATGGGGCTGAACTCTGCCGATCTAGTGAAGGGACTCTGCCATCCCAGAGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCATCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCYCATCAGTGTACCAAGCTGTCTGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTYCTCATGGAGAACGTCTCTATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGARGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTCGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGYGCCTGCGCCATCGGCTGCAAGGTCTACATCACYGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTYGGCCATGGCTCYGCAGAGCTGAAACACTGCCTCTACGTGGTAGGTGGACACACGGCCGGAACAGGCTGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCTACCCCCTTCTTTCCTCCTCCTCCTTGCATCCTCGGGTGTTGAAACAGGAGCCGGGACCGGGTGAACCGTTTATCCTCCTCTTGCCGGAAACTTAGCCCACGCAGGGGCATCCGTTGACCTAACAATCTTCTCCCTTCATCTGGCGGGAGTCTCTTCAATTCTTGGGGCAATCAACTTCATTACCACAATCGTTAACATGAAACCCCCCACAATTTCCCAGTACCAAACGCCCCTTTTCGTCTGATCTGTGCTAGTAACCGCCGTTCTCCTCCTCTTATCCCTCCCAGTTTTAGCCGCCGGAATTACCATGCTTCTTACCGACCGCAACCTTAATACAACCTTCTTCGACCCCGCAGGGGGAGGGGACCCAATCCTCTACCAACACCTCTTCTGATTCTTCGGGCACCCAGAAGTTTATATTTTAATCCTTCCCGGCTTCGGAATGATTTCCCACATTGTCGCTTATTACGCAGGGAAGAAAGAACCCTTCGGCTATATAGGGATGGTGTGAGCTATGATAGCCATCGGGCTCCTTGGCTTTATTGTGTGAGCCCACCATATGTTTACGGTTGGAATGGACGTGGACACCCGGGCCTAC
225
Thysanactis dentex AAGGCCGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCRGGCCGAGGGCGCGGGCGAGGCCGTCACCGTCTTCCGGGAGTCCMGGCCCAACTCTGAGCTGTCCTGCAAGCCGCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACCGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCYATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGGCTCCCGCGCTCCTTCCGCTTCCACTTCCGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACCTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAGGCGTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGACGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCGTACTCGGAGTCGGCGGACGAGCTGCGGGAGCGGGTGAAGGGCGTSTCGGCCAAGCCCTTCATGGAGACCCAGGCCAGCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCGGGCCCGGCCGGGAGGAGCGGCGCGGCTGGCGRGCGGCGCTGGACAAGCAGCTGAGGAGGAG GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCGCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCGGTSTGCGAGCTGGTCCCCTCGGAGCCGCGGCGCCAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCGGTGTGGCGC???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????
226
Trigonolampa miriceps AAGGCTGTGCGCTTCTCCTTCACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGTGGACGAGGCCATCACCGTCTTCCGGGAGTCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCATTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGCGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACGTACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGTAGCCACGACGAGAACATGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCCRCGGACGAGCTGCGGGACCGGGTGAAGGGCGTCTCGGCCAAGCCTTTCATGGAGACCCAGCCCACCCTGGACGCCCTGCACTGCGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGTGCTGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGCCGGCTGATGACCGCGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTCCGGGAGCTGATGGCGCTCTACATCCAGATGAAGCCCGTGTGGCGCAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCTGCAGTCCCCGGAGCA------AAGAGGGATGCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCCCTGGAGGCTTTTGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCTCTGGCAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCGGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATGGCCACTGACAGTGCATTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGTTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGCAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGTCTGGCTTTGCTGCCCGCCATCTTCCTCATGGAGAATGTCTCCATGGAGGAGCTGATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGATGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCRCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAAGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTTTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTATGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCCTCCCTCCTTCCTCCTCCTTCTTGCCTCTTCCGGTGTAGAGGCTGGAGCCGGGACAGGGTGAACTGTTTACCCTCCTCTTGCCGGAAACCTAGCACATGCAGGGGCCTCCGTTGACCTGACAATTTTTTCCCTTCATCTGGCAGGGATCTCTTCAATTTTGGGGGCTATCAACTTCATTACTACAATTATTAACATGAAGCCCCCAGCTATTTCCCAGTACCAAACACCCCTTTTCGTCTGGGCCGTTCTTGTCACTGCTGTTCTTCTTCTATTGTCCCTCCCCGTTCTAGCCGCTGGGATTACTATACTCCTCACAGACCGAAACCTAAATACAACCTTTTTTGACCCTGCAGGAGGGGGAGACCCGATTCTTTACCAACACCTCTTCTGATTCTTCGGGCACCCAGAAGTCTATATTCTGATCCTCCCCGGCTTCGGAATAATCTCCCACATCGTTGCTTACTACTCAGGGAAAAAAGAACCCTTCGGCTATATGGGCATAGTTTGAGCCATAATGGCCATTGGACTCCTTGGCTTTATCGTTTGAGCTCACCACATATTTACCGTAGGGATAGATGTGGACACTCGAGCCTAT
227
Idiacanthus fasciola AAGGCCGTGCGCTTCTCCTTCACCATCATGTCCGTCTSCGTCCAGGCCGARGGTGCRGAG---GCCAT CACCATCTTCCAGGAGGCCAAGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGATGAGTCCGACCACGAGACACTGACGGCCATCCTGGGGCCCCTGGTGGCCGAGCGGGATGCCATGAAGAGCAGCCGCCTCATYCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACAGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCACATACATCTGCACCCTCTGCGACTCCACCCGGGCGGAAGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGTAGCCACGAGGAGAACGTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCTGYGGATGAGCTGCGCGACCGGGTGAAGGGYGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCAGCCTGGATGCCCTGCACTGCGACATCGGCAACGCCACTGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCAGGCCCAGCCGGGAGGCGCGGCGCGGCTGGCGCACCGCGCTGGACAAGCAGCTGCGGAGGAA GATGAAGCTGAGGCCTGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCTGTGTGCGAGCTGGTCCCCTCGGAGGCACGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCTGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAATACTTTGCCAGCATTGCTGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTTGGCAACGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTCGGAACCACTGGAAAGTTGTCCTCTGCAGACATAGAGACTTACCTTCTGGAAAAGTCCCGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCTTTCATCTCTCAAGGAGAAGTAACAGTAGCATCCATCAACGATTCTGAGGAGCTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTCTACAAGTTGACAGGTGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCCGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCAAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCCNNNNNNCTGGAGAGGAACCTGCATCTGTCCAACTGTCTGGGAATGCTGCTTCTCTCGGATGCCCATCAGTGTGCCAAGCTGTCTGAGCTGGCCTGGGGAATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTAGAGACAGAGGACGAGAGGCTGGTCTACGAGGCCGCCCTCAACTGGGTTAACTACGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCTACGGAGGAGCTGGTCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTCAGGATCCTGCAGAACGAGGGTGTGGTCAGCAGCCCGCTGGCCAGGCCCAGGAAGACCAGTCACTCCCTCTTCCTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTGTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTCTCCAAAGATGTCTGGGTCTATGATACGTCCCACGAGGAGTGGTCGAAGGCAGCGCCCATGCTCATCGCCCGGTTTGGCCATGGCTCTGCGGAGCTTAAACACTGCCTCTACGTGGTAGGCGGACACACAGCCGGAACAGGCTGCCTCATAGTCGGCACAGCTTTAAGCCTACTCATCCGAGCAGAGTTAAGCCAACCGGGAACGCTTCTAGGCGATGACCAAATCTATAATGTCATCGTAACAGCTCATGCTTTCGTTATAATCTTCTTCATAGTTATACCCATCATAATCGGGGGGTTCGGGAACTGATTAGTTCCCCTAATAATCGGGGCCCCCGACATGGCTTTTCCCCGCATAAATAACATAAGCTTTTGACTACTACCCCCCTCCTTTCTTCTTCTCCTCGCATCTGCAGGCGTAGAAGGCGGGGCCGGAACCGGCTGAACTGTCTATCCCCCCCTCGCCGGAAACTTGGCCCATGCAGGGGCCTCAGTAGACCTTACAATTTTTTCCCTCCACTTAGCGGGCATCTCCTCAATTCTTGGGGCCATTAACTTTATTACCACAATTATTAACATAAAACCTGCAGCCGCCTCCCAATACCATACGCCCCTATTTGTTTGATCCGTCTTAGTGACCGCCGTCCTCTTACTCTTATCTCTACCTGTATTAGCCGCTGGAATTACCATGCTCCTCACAGACCGAAACCTCAACACAACCTTCTTTGACCCCGCAGGGGGGGGAGACCCCATCCTTTATCAACATCTCTTCTGATTCTTTGGCCACCCTGAGGTCTACATTTTAATTCTCCCTGGCTTTGGAATGATTTCTCACATCGTAGCATACTACGCCGGAAAAAAGGAACCCTTCGGCTATATAGGAATAGTATGAGCTATACTGGCCATTGGACTACTTGGCTTTATTGTTTGAGCCCACCACATATTCACAGTGGGAATGGACGTAGACACCCGAGCCTAC
228
Aristostomias polydactylus AAGGCCGTGCGCTTCTCCTTTACCGTCATGTCCGTCTCGGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCACGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACACTGACGGCCATCCTGGGGCCTGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGTCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCTGGCTCCACGTACATCTGCACTCTCTGCGACTCCACCCGAGCAGAAGCGTCTCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGCGACCGGGTGAAGGGCGTCTCAGCCAAGCCCTTCATGGAGACCCAGCCCGGCATGGATGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCTGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCTGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGTTGAGGCCCGTGATGAGGATGAACGGGAACTATGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAAGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTYGGCGGAGCA------AAGAGGGATYCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTACCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACTAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCACTACGGCAACATGAAGTTCAARCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGCCAGGGTGTGGACCAAGTCTACTACTCCNNNNNNNNNNNNNNNCTGGAAAAGAACCTACACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAGACTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAAAAGCGGCACTGTCACTTGCCAGATTTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTAATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCACTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTATACATCACCGGAGGCAGGGGTTCTGAGAACGGGGTCTCCAAAGACGTGTGGGTCTATGATACGTCCCACGAGGAGTGGTCGAAGGCGGCACCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGTTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATAGTGGGTACAGCCTTAAGTCTGCTCATTCGAGCAGAGCTAAGTCAACCTGGCTCTCTGCTAGGTGATGACCAAATTTATAACGTTATCGTTACAGCTCACGCTTTCGTGATAATCTTCTTCATAGTAATACCTATTATAATCGGAGGCTTTGGAAATTGACTCATCCCTCTTATGATTGGGGCCCCAGACATGGCGTTCCCACGAATGAATAATATGAGCTTCTGGCTTCTCCCTCCTTCTTTCCTGCTTCTCCTTGCATCATCAGGAGTCGAGGCTGGGGCAGGGACGGGTTGAACTGTATACCCACCACTTGCGGGCAACCTGGCGCATGCTGGGGCGTCCGTAGATCTAACGATCTTTTCCCTTCACCTAGCGGGGATTTCTTCAATTCTCGGTGCAATTAATTTTATTACTACAATCATTAATATGAAGCCTCCAGCCATTTCGCAGTACCAGACGCCCCTTTTCGTCTGGGCCGTTCTCATCACTGCGGTACTTCTCCTTCTTTCTCTGCCCGTCCTTGCCGCTGGCATCACTATGCTACTCACGGATCGAAACCTCAATACAACCTTCTTCGACCCCGCAGGTGGAGGAGACCCAATCCTTTATCAACACCTATTCTGGTTTTTCGGGCACCCAGAAGTTTACATTCTTATCCTACCGGGCTTCGGGATGATCTCCCACATCGTTGCATACTATTCCGGAAAAACGGAGCCCTTCGGTTATATGGGAATGGTTTGAGCTATGATGGCTATCGGGCTTCTTGGTTTTATCGTGTGAGCCCATCACATGTTCACGGTGGGGATGGATGTGGATACACGAGCTTAC
229
Aristostomias scintillans AAGGCCGTGCGCTTCTCCTTTACCGTCATGTCCGTCTCGGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCACGAGTCCAGGCCCAACTCTGAGCTGTCGTGCAAGCCCCTTTGCCTGATGTTCGTGGACGAATCCGACCACGAGACACTGACGTCCATTCTGGGGCCTGTAGTGGCCGAGCGGGACGCCATGAAGAGCAGTCGCCTCATCCTGTCGCTGGGGGGTCTCCCGCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCTTCTGGCTCCACGTACATCTGCACTCTCTGCGACTCCACCCGGGCAGAAGCATCTCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCTGGAGCGCTACGAGATATGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGCGACCGGGTGAAGGGCGTCTCAGCCAAGCCCTTCATGGAGACCCAGCCCGGCTTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATTGGGGAGGTACACCGGAGG------CCCTGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCTGCACTGGACAAGCAGCTGAGGAGGAA GATGAAGTTGAGGCCCGTGATGAGGATGAACGGTAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAAGCCCTGCGGGAGCTGATGGCACTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGCCGGAGCA------AAGAGGGATCCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCTCTGGCAAGCTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATYAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAWGAGGAGAAAATGGGAGTGTACAAGYTGAYAGGCGCAATCATGCACTACGGCAACATGAAGTTCAAGCAAAAGCAGCGTGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGGYAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGCCAGGGTGTAGACCAAGTCTACTACTCCCTCGGTGCACTGGCACTGGAGAGGAACCTACACCCATCCAACTGTCTTGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAGACTGGTTTATGAGGCCGCCCTCGACTGGGTCAACTATGACCTGGAGAAGCGGCACTGTCACTTGCCAGAGTTGCTAAGAACTGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTAATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATTCACTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTATACATCACCGGAGGCAGGGGTTCTGAGAACGGGGTCTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGTTAAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCNNNNNNGGCACAGGCCTAAGTCTGCTTATTCGAGCAGAACTAAGCCAACCTGGGGCTCTCCTAGGAGACGACCAAATTTATAACGTAATCGTCACCGCACACGCCTTTGTAATAATCTTTTTTATGGTAATACCCATTATGATTGGAGGATTTGGAAACTGACTTATCCCCTTAATAATTGGRGCCCCTGACATAGCNTTCCCYCGAATAAATAACATGAGTTTCTGACTCCTTCCCCCATCCTTTCTGCTACTCCTAGCCTCTTCAGGTGTTGAAGCAGGGGCAGGTACAGGGTGAACCGTGTACCCCCCACTAGCTGGCAATCTAGCCCATGCTGGAGCATCYGTAGACCTAACAATCTTCTCACTACACCTCGCAGGTATCTCCTCAATTCTGGGAGCTATCAACTTTATCACCACCATTATTAACATGAAACCTGCAACARTGACCATGTACCAAATCCCCTTATTTGTCTGAGCYGTTTTAATTACCGCTGTCCTCCTCCTCCTATCACTTCCCGTCTTAGCCGCTGGGATCACGATGTTATTAACAGACCGAAACCTAAACACAACGTTTTTTGACCCTGCCGGAGGAGGTGACCCCATCCTCTATCAACACCTATTCTGATTCTTTGGCCATCCAGAGGTATACATCCTCATTCTCCCAGGCTTTGGAATGATTTCCCACATTGTTGCATACTATGCAGGTAAAAAAGAACCCTTTGGATACATGGGCATGGTCTGAGCTATGATGGCAATTGGCCTTCTAGGCTTTATTGTCTGAGCCCACCACATGTTTACAGTCGGAATAGACGTAGACACACGAGCATAC
230
Aristostomias tittmanni AAGGCCGTGCGCTTCTCCTTTACCGTCATGTCCGTCTCGGTCCAGGCCGAGGGCGCGGACGAGGCCGTCACCGTCTTCCACGAGTCCAGGCCCAACTCTGAGCTGTCGTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACACTGACGGCCATCCTGGGGCCTGTGGTGGCCGAGCGGAACGCCATGAAGAGCAGTCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCTTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCTTCTGGCTCCACGTACATCTGCACTCTCTGCGACTCCACCCGGGCAGAAGCATCTCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCTGGAGCGCTACGAGATATGGAGGACCAACCCCTACTCGGAGTCGGCGGACGAGCTGCGCGACCGGGTGAAGGGCGTCTCAGCCAAGCCCTTCATGGAGACCCAGCCCGGCTTGGACGCCCTGCATTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCATCGGAGG------CCCTGCCCCAGCCGGGAGGAGCGCCGCGGCTGGCGAGCTGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGTTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAAGCCCTGCGGGAGCTGATGGTGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACYGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGCCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCAYTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCATTTTGGAACCTCTGGCAAGCTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTGAAGTCAGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTCTAATMACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCATGAGGAGAAAATGGGAGTGTACAAGCTGACAGGCGCAATCATGCACTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGACGGCACGGAGGCTGCAGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGARTTTGTCACTAAAGGCCAGGGTGTAGACCAAGTCTACTACTCCATCGGTGCACTGGCNCTGGAGAGGAACCTACACCCATCCAACTGTCTTGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACAGAGGACGAGAGACTGGTCTATGAGGCYGCCCTCAACTGGGTCAACTATGACCTGGAGAAGCGGCACTGTCACTTGCCAGAGTTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCATGGAGGAGCTAATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATTCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCACTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAARGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTATACATCACCGGAGGCAGGGGTTCTGAGAACGGGGTCTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGTTAAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATAGTGGGTACAGCTCTGAGTCTGCTCATTCGAGCAGAACTAAGTCAACCTGGTTCCCTCTTAGGAGACGACCAAATTTATAACGTTATCGTTACAGCTCACGCTTTTGTAATAATTTTCTTCATAGTAATGCCGATTATGATCGGAGGCTTTGGAAACTGACTCATCCCCCTTATGATTGGGGCCCCAGATATGGCATTTCCACGAATGAACAATATGAGTTTCTGGCTGCTTCCCCCATCCTTTCTTCTTCTCCTTGCATCCTCAGGGGTTGAAGCAGGGGCAGGAACAGGCTGAACTGTTTACCCCCCGCTAGCTGGAAACCTGGCACATGCTGGGGCATCCGTAGATTTAACGATTTTTTCGCTCCACCTGGCGGGGATTTCTTCAATCCTCGGTGCAATTAACTTCATCACCACAATCATTAACATGAAGCCACCAGCCATTTCACAATACCAAACGCCCCTTTTCGTGTGATCCGTCTTAATTACTGCAGTGCTTCTTCTTCTATCCCTGCCTGTCCTTGCTGCTGGCATCACTATGCTGCTCACAGATCGAAACTTAAATACGACTTTCTTCGACCCTGCAGGGGGAGGAGACCCAATCCTTTACCAGCATTTATTCTGGTTCTTTGGGCATCCAGAAGTTTATATTCTTATCTTACCAGGTTTCGGAATAATCTCGCATGTTGTTGCATATTATGCTGGGAAAACCGAGCCTTTCGGGTACATGGGCATGGTTTGAGCCATGATGGCCATTGGGTTGCTTGGCTTTATCGTCTGAGCTCACCACATGTTCACGGTTGGGATGGATGTGGACACACGGGCTTAC
231
Malacosteus niger AAGGCCGTGCGCTTCTCCTTTACCGTCATGTCCGTCTCCGTCCAGGCCGAGGGCGAGGATGAGGCCGTCACCGTCTTCCGGGAGTCCTGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGACGAATCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGTCTCCTGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCATGTATATCTGCACCCTTTGCGACTCCACCCGGGCAGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACGAGGAGAACCTGGAGCGCTATGAGATCTGGAGGACCAACCCCTATTCGGAGTCGACGGACGAGCTGCGCGACCGGGTGAAGGGCGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCGGCCTGGACGCCCTGCACTGTGACATCGGCAACGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCTGCCCCAGCCGGGAGGAGCGGCGCGGCTGGCGAGCAGCGCTGGACAAGCAGCTGAGGARGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTTGAGGCCGTGTGCGAGCTGGTCCCCTCRGAGTCACGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACATCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCRGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TTCAGGCTAACCCTGCACTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCYATCAATGATTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAACAAAAACAGCGAGAAGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCCGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGGGACTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCATTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAATTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCYCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGATGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTGATTAATGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTACATCACAGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGAACAGGCNNNNNNATAGTTGGTACGGGGTTGAGCCTGCTTATTCGAGCAGAATTAAGTCAACCCGGTGCCCTCCTAGGTGACGACCAGATTTACAACGTCATCGTTACAGCACATGCTTTTGTTATAATCTTCTTCATGGTGATGCCTATTATAATTGGGGGGTTCGGAAACTGGCTGATCCCTCTCATGATTGGGGCTCCTGACATGGCGTTTCCCCGAATAAATAATATGAGCTTCTGACTCTTACCCCCATCTTTTCTCCTTCTTCTCGCATCGTCAGGCGTTGAGGCCGGGGCAGGAACCGGTTGAACTGTTTATCCGCCACTTTCTGGAAATTTGGCCCATGCCGGGGCATCTGTAGACCTGACGATCTTCTCCCTGCACTTGGCGGGAATTTCGTCAATTCTGGGGGCAATTAACTTCATCACCACAATTATTAACATGAAACCCCCAGCCATCTCACTGTACCAGACACCCCTTTTCGTCTGATCTGTGTTAATCACTGCGGTTCTTCTTCTTCTATCCCTTCCCGTCCTTGCCGCCGGCATCACAATGCTGCTGACAGATCGAAATCTTAATACAACCTTCTTTGACCCTGCGGGCGGAGGAGACCCAATTCTCTACCAGCATTTGTTCTGATTCTTTGGGCATCCGGAGGTGTACATTTTAATCCTTCCAGGGTTCGGGATGATTTCTCACATTGTAGCGTACTATGCTGGGAAAAGCGAGCCTTTTGGTTATATGGGCATGGTTTGAGCCATGATGGCCATTGGACTGCTTGGTTTCATTGTATGAGCCCACCACATGTTCACGGTGGGGATGGATGTGGACACACGAGCTTAC
232
Pachystomias microdon AAGGCCGTGCGCTTCTCCTTTACTGTCATGTCCATCTCCGTCCAGGCTGAGGGCGCGGACGAGGCCGTCACCGTCTTCCTGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAGCCCCTGTGCCTGATGTTCGTGGATGAATCCGACCACGAGACGCTGACGGCCATCCTGGGGCCCGTGGTGGCCGAGCGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTCCCGCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGGTCCACGTACGTCTGCACCCTCTGCGACTCCACCCGGGCAGAAGCGTCCCACAACATGGTGCTCCACTCCATCACCCGCAGCCACCAGGAGAACCTGGAGCGCTACGAGATCTGGAGGACCAACCCCTACTCGGAGTCAGCGGACGAGCTGCGCGACCGGGTGAAGGGTGTCTCGGCCAAGCCCTTCATGGAGACCCAGCCCGGCCTGGACGCCCTGCACTGTGACATCGGCAATGCCACCGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCCTGCCCCAGCCGGGAGGAGCGGCGCAGCTGGCGAGCCGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTGAGGCCCGTGATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCGTGTGCGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGNNNNNNNNNNNNNNNNNNAAGACTGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCTCTGGAGGCTTTCGGCAATGCCAAAACATTGAGAAATGACAACTCATCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGGAACTATCATATCTTCTTCCAGATCCTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACCAACAATCCATATGACTACTCCTTCATCTCCCAAGGAGAGGTAACAGTAGCATCCATCAATGACTCTGAGGAGTTGATAGCCACTGACAGTGCGTTCGATGTGCTTGGCTTTACTCAAGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCTGAGCCTGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCTGCAGATCTAGTGAAGTGTCTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAAGTCTACTACTCCCTTGGTGCACTGGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCAGATGCCCATCAGTGTACCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTGTAAGACTGAGGACTTCCTACAGTTGCCCAAAGACATGGCAGTCCAGCTGCTGTCTCATGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTATGAGGCCGCCCTCAACTGGGTCAACTACGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGTTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTCTCCACGGAGGAGCTAATCAACGCCCAGACCAAGAGCAAGGAGCTGGTGGACGAGGCCATCCGCTGCAAGCTGAGGATCCTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGTGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGAAAGGAGTTCAGCGCCTGTGCCATCGGCTGCAAGGTATACATCACCGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTCATCGCCCGGTTCGGCCATGGCTCTGCAGAGCTGAAACACTGCCTCTACGTGGTAGGCGGACACACGGCCGGAACAGGCTGCCTCATAGTAGGAACTGCTTTAAGCCTGCTTATTCGGGCTGAACTCAGCCAACCTGGAGCCCTTCTGGGCGATGATCAAATTTATAATGTAATCGTTACAGCTCACGCTTTCGTCATGATTTTCTTCATGGTAATGCCTCTCATGATCGGAGGGTTCGGAAACTGACTAATCCCCTTAATGATCGGGGCCCCCGACATGGCATTCCCTCGAATGAACAACATGAGCTTCTGACTCCTCCCACCTTCTTTCCTTCTCCTCCTGGCCTCATCTGGGGTCGAAGCTGGAGCAGGCACTGGCTGAACAGTCTACCCTCCCCTGGCAGGCAACCTCGCCCACGCTGGGGCCTCTGTAGACCTAACGATCTTCTCACTCCACCTAGCCGGTATTTCATCAATTCTTGGGGCCATCAACTTTATTACTACGATTATTAACATGAAACCCCCTGTAACTACTCAGTTCCAAACACCTCTGTTTGTCTGGGCAGTACTAATTACCGCCGTTCTACTCCTCCTTTCTCTACCTGTCCTAGCCGCTGGGATTACAATGCTCTTAACGGACCGAAACCTAAATACGACCTTCTTCGACCCCGCGGGAGGTGGTGACCCTATTCTATATCAACACCTATTCTGATTCTTCGGACACCCTGAAGTATACATTCTAATCCTTCCAGGCTTTGGTATGATCTCGCACATCGTTACATACTACTCAGGTAAGAAAGAACCTTTCGGTTACATGGGCATGGTTTGAGCTATGATGGCCATCGGATTCCTAGGCTTTATTGTTTGAGCCCACCACATGTTTACTGTGGGTATGGACGTCGACACGCGTGCCTAC
233
Photostomias guernei AAGGCCGTGCGCTACTCCTTCACCGTCATGTCCGTCTCTGTCCAGACCGAGGGCGCGGACGAGGCCGTCACCATCTTCTGGGAGTCCAGGCCCAACTCTGAGCTGTCCTGCAAACCCCTGTGCTTGATGTTCGTGGACGAGTCCGACCACGAGACGCTGACGGCCATCCTGGGACCCGTGGTGGCCGAGAGGGACGCCATGAAGAGCAGCCGCCTCATCCTGTCGCTGGGGGGCCTTCCCCGCTCCTTCCGCTTCCACTTCAGGGGTACGGGCTACGACGAGAAGATGGTGCGTGAGATGGAGGGCCTGGAGGCCTCGGGCTCCATGTACATCTGCACCCTCTGTGACTCCACCCGGGCAGAAGCGTCCCGCAACATGGTGCTCCACTCCATCACCCGCAGCCACCAGGAGAACCTGGAGCGCTATGAGATCTGGAGGACCAATCCCTACTCCGAGTCGGCCGATGAGCTGCGCGAGCGGGTGAAGGGCGTTTCAGCCAAGCCCTTCATGGAGACCCGGCCCGGCCTGGAYGCCCTGCACTGTGACATCGGCAATGCCACYGAGTTCTACAAGATCTTCCAGGACGAGATCGGGGAGGTGCACCGGAGG------CCTCGCCCCGGCCGGGAGGAGCGGCGCGGCTGGCGAGTAGCGCTGGACAAGCAGCTGAGGAGGAA GATGAAGCTAAGGCCCGTAATGAGGATGAACGGGAACTACGCCCGGCGGCTGATGAGCGTGGAGGCGGTGGAGGCCATGTGTGAGCTGGTCCCCTCGGAGCCGCGGCGGGAGGCCCTGCGGGAGCTGATGGCGCTCTACCTCCAGATGAGGCCCGTGTGGCGCAAGACCGTCAACACCAAGAGAGTTATCCAGTACTTTGCCAGCATTGCGGCAGTTGGCGGAGCA------AAGAGGGATTCCAGCAAGGGAACCTTGGAGGATCAAATCA TCCAGGCTAACCCTGCACTGGAGGCTTTYGGCAATGCCAAAACATTGAGAAATGACAACTCGTCACGCTTTGGTAAATTCATCCGGATTCACTTTGGAACCACTGGCAAGTTGTCCTCTGCTGACATAGAGACTTACCTTCTGGAAAAGTCACGAGTCACCTTTCAGCTCAAGTCTGAGAGAAACTATCATATCTTCTTCCAGATCTTGTCCAATCAAAAGCCAGAGCTGTTGGACATGCTTTTAATCACAAACAATCCATATGACTACTGCTTCATCTCCCAAGGAGAGGTAACAGTMGCATCCATCAATGATTCTGAGGAGTTGATAGCCACTGATAGTGCGTTCGATGTGCTTGGCTTCACTCAWGAGGAGAAAATGGGAGTGTACAAGTTGACAGGCGCAATCATGCATTACGGCAACATGAAGTTCAAGCAAAAGCAGCGAGAGGAGCAGGCCGAGCCCGATGGCACGGAGGCTGCTGACAAGTCAGCTTACCTAATGGGGCTGAACTCCGCAGATCTAGTGAAGTGTCTCTGCCATCCCAGGGTCAAGGTTGGCAATGAGTTTGTCACTAAAGGGCAGGGTGTAGACCAGGTCTACTACTCCATTGGTGCACTAGCTCTGGAGAGGAACCTGCACCCGTCCAACTGTCTGGGAATGCTGCTTCTCTCCGAYGCCCATCAGTGCGCCAAGCTGTCCGAGCTGTCCTGGGGCATGTGCCTCAGCAACTTTCCCGCCATTTCTAAGACCGAGGACTTCCTCCAGTTGCCCAAAGACATGGCCGTCCAGCTGCTGTCTCAYGAGGAGCTGGAGACGGAGGACGAGAGGCTGGTCTACGAAGCCGCCCTCAACTGGGTCAACTATGACCTGGAGAGGCGGCACTGTCACTTGCCAGAGCTGCTAAGAACCGTTCGTCTGGCCTTGCTGCCCGCCATCTTCCTCATGGAGAACGTGTCCACGGAGGARCTCGTCAACGGCCAGACCAAGAGCAAGGAGCTGGTAGACGAGGCCATCCGCTGCAAGCTGAGGATCTTGCAGAACGAGGGCGTGGTCAACAGCCCGCTGGCCAGGCCCAGGAAGACCAGCCACTCCCTCTTCTTGCTGGGTGGGCAGACCTTCATGTGCGACAAACTCTACCTGGTGGACCAGAAGGCCAAGGAGATCATCCCCAAGGCGGACATCCCCAGCCCCAGGAAGGAGTTCAGCGCCTGCGCCATCGGCTGCAAGGTCTAYATCACCGGAGGCAGGGGCTCTGAGAACGGGGTGTCCAAAGACGTGTGGGTCTACGATACGTCCCACGAGGAGTGGTCGAAGGCGGCGCCCATGCTTATCGCCCGGTTCGGCCACGGCTCCGCAGAGCTGAAACACTGCCTCTACGTGGTGGGCGGACACACGGCCGGAACAGGCAGCCTCATAGTGGGTACAGGCCTAAGTCTGCTTATTCGGGCAGAACTAAGCCAACCTGGGGCTCTCCTTGGAGACGACCAAATTTATAACGTAATCGTCACCGCACACGCCTTTGTAATAATCTTTTTTATAGTAATACCCATTATGATCGGGGGTTTCGGAAACTGGCTTATTCCACTAATAATTGGAGCCCCAGATATGGCTTTCCCTCGAATAAATAACATGAGTTTCTGACTTCTTCCCCCATCCTTTCTTCTCCTCTTAGCCTCTTCAGGTGTTGAAGCTGGGGCAGGTACGGGGTGAACCGTTTATCCACCACTAGCTGGTAATCTGGCCCACGCCGGAGCATCCGTTGACCTAACAATCTTCTCACTTCACCTTGCAGGGATTTCGTCAATTCTGGGGGCAATTAACTTTATTACTACCATCATCAACATGAAACCCACAACAGTTACTATGTACCAAATCCCATTATTTGTTTGAGCCGTTCTAATTACCGCCGTACTTCTTCTTCTGTCCCTTCCCGTCTTAGCCGCGGGGATTACAATGCTACTAACAGACCGCAACCTCAACACAACCTTTTTTGACCCCGCCGGAGGTGGTGACCCCATCCTCTATCAACACCTATTCTGATTCTTTGGCCACCCAGAGGTATATATTCTCATTCTTCCAGGCTTCGGAATAATTTCCCACATTGTTGCATACTATGCAGGTAAAAAAGAACCTTTTGGTTACATAGGAATAGTCTGAGCTATGATAGCCATTGGACTCCTGGGATTCATTGTATGGGCCCAYNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN
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